TY - THES A1 - Stoll, Andreas T1 - Advanced spectroscopic instruments enabled by integrated optics N2 - The aim of this work is the study of silica Arrayed Waveguide Gratings (AWGs) in the context of applications in astronomy. The specific focus lies on the investigation of the feasibility and technology limits of customized silica AWG devices for high resolution near-infrared spectroscopy. In a series of theoretical and experimental studies, AWG devices of varying geometry, foot-print and spectral resolution are constructed, simulated using a combination of a numerical beam propagation method and Fraunhofer diffraction and fabricated devices are characterized with respect to transmission efficiency, spectral resolution and polarization sensitivity. The impact of effective index non-uniformities on the performance of high-resolution AWG devices is studied numerically. Characterization results of fabricated devices are used to extrapolate the technology limits of the silica platform. The important issues of waveguide birefringence and defocus aberration are discussed theoretically and addressed experimentally by selection of an appropriate aberration-minimizing anastigmatic AWG layout structure. The drawbacks of the anastigmatic AWG geometry are discussed theoretically. From the results of the experimental studies, it is concluded that fabrication-related phase errors and waveguide birefringence are the primary limiting factors for the growth of AWG spectral resolution. It is shown that, without post-processing, the spectral resolving power is phase-error-limited to R < 40, 000 and, in the case of unpolarized light, birefringence-limited to R < 30, 000 in the AWG devices presented in this work. Necessary measures, such as special waveguide geometries and post-fabrication phase error correction are proposed for future designs. The elimination of defocus aberration using an anastigmatic AWG geometry is successfully demonstrated in experiment. Finally, a novel, non-planar dispersive in-fibre waveguide structure is proposed, discussed and studied theoretically. N2 - Das Ziel der vorliegenden Arbeit ist die Untersuchung von Arrayed Waveguide Gratings (AWGs) auf SiO2-Basis im Kontext von Anwendungen in der Astronomie. Der besondere Fokus liegt auf der Untersuchung der Machbarkeit und der technologischen Grenzen von spezialisierten AWGs für die hochauflösende Nahinfrarot-Spektroskopie. In einer Reihe von theoretischen und experimentellen Studien werden AWGs unterschiedlicher Geometrie, Größe und spektraler Auflösung konstruiert, unter Verwendung einer numerischen Beam-Propagation-Methode (BPM) und Fraunhofer-Beugung simuliert und hinsichtlich Effizienz, spektraler Auflösung und Polarisationsempfindlichkeit charakterisiert. Der Einfluss von Variationen des effektiven Brechungsindex auf die Leistung von hochauflösenden AWGs wird numerisch untersucht. Mit hergestellten AWGs gewonnene Messergebnisse werden verwendet, um die technologischen Grenzen der SiO2-Plattform zu extrapolieren. Die relevanten Probleme der Polarisationsempfindlichkeit und der in kanonischen Rowland-Geometrien auftretenden Defokusaberration werden theoretisch diskutiert und experimentell durch die Auswahl einer geeigneten aberrationsminimierenden AWG-Struktur angegangen. Die Nachteile anastigmatischer AWGs werden theoretisch diskutiert. Aus den Ergebnissen der experimentellen Studien wird geschlossen, dass herstellungsbedingte Phasenfehler und Wellenleiter-Doppelbrechung die primären begrenzenden Faktoren für die Erhöhung der AWG-Spektralauflösung sind. Es wird gezeigt, dass das spektrale Auflösungsvermögen der in dieser Arbeit präsentierten AWGs ohne Phasenfehlerkorrektur auf R < 40, 000 und durch Doppelbrechung auf R < 30, 000 im Fall unpolarisierten Lichtes begrenzt ist. Notwendige Maßnahmen wie spezielle Wellenleitergeometrien und Phasenfehlerkorrektur nach der Herstellung werden für zukünftige AWG-Designs empfohlen. Die Eliminierung von Defokussierungsfehlern unter Verwendung einer anastigmatischen AWG-Geometrie wird erfolgreich im Experiment demonstriert. Schließlich wird eine neuartige, in eine optische Faser eingebettete, nicht-planare dispersive Wellenleiterstruktur vorgeschlagen, diskutiert und theoretisch untersucht. KW - Astrophotonics KW - Integrated spectrograph KW - planar lightwave circuit KW - arrayed waveguide grating KW - silica-on-silicon KW - Astrophotonik KW - integrierter Spektrograph KW - planare Lichtwellenleiter KW - Siliziumdioxid-auf-Silizium Y1 - 2022 ER - TY - THES A1 - Späker, Oliver C. T1 - Structure-property-function relationships in the cornea of Limulus polyphemus Y1 - 2022 ER - TY - JOUR A1 - Fritsch, Daniel T1 - Revisiting the Cu-Zn disorder in kesterite type Cu2ZnSnSe4 employing a novel approach to hybrid functional calculations JF - Applied Sciences : open access journal N2 - In recent years, the search for more efficient and environmentally friendly materials to be employed in the next generation of thin film solar cell devices has seen a shift towards hybrid halide perovskites and chalcogenide materials crystallising in the kesterite crystal structure. Prime examples for the latter are Cu2ZnSnS4, Cu2ZnSnSe4, and their solid solution Cu2ZnSn(SxSe1-x)(4), where actual devices already demonstrated power conversion efficiencies of about 13 %. However, in their naturally occurring kesterite crystal structure, the so-called Cu-Zn disorder plays an important role and impacts the structural, electronic, and optical properties. To understand the influence of Cu-Zn disorder, we perform first-principles calculations based on density functional theory combined with special quasirandom structures to accurately model the cation disorder. Since the electronic band gaps and derived optical properties are severely underestimated by (semi)local exchange and correlation functionals, supplementary hybrid functional calculations have been performed. Concerning the latter, we additionally employ a recently devised technique to speed up structural relaxations for hybrid functional calculations. Our calculations show that the Cu-Zn disorder leads to a slight increase in the unit cell volume compared to the conventional kesterite structure showing full cation order, and that the band gap gets reduced by about 0.2 eV, which is in very good agreement with earlier experimental and theoretical findings. Our detailed results on structural, electronic, and optical properties will be discussed with respect to available experimental data, and will provide further insights into the atomistic origin of the disorder-induced band gap lowering in these promising kesterite type materials. KW - Cu2ZnSnSe4 KW - CZTSe KW - chalcogenide KW - kesterite KW - Cu-Zn disorder KW - density KW - functional theory KW - hybrid functional KW - special quasirandom structure Y1 - 2022 U6 - https://doi.org/10.3390/app12052576 SN - 2076-3417 VL - 12 IS - 5 PB - MDPI CY - Basel ER - TY - THES A1 - Velk, Natalia T1 - Investigation of the interaction of lysozyme with poly(l-lysine)/hyaluronic acid multilayers BT - Fluorescence and ATR-FTIR study Y1 - 2022 ER - TY - JOUR A1 - Teichmann, Erik A1 - Lewandowski, Heather J. A1 - Alemani, Micol T1 - Investigating students’ views of experimental physics in German laboratory classes JF - Physical Review Physics Education Research N2 - There is a large variety of goals instructors have for laboratory courses, with different courses focusing on different subsets of goals. An often implicit, but crucial, goal is to develop students’ attitudes, views, and expectations about experimental physics to align with practicing experimental physicists. The assessment of laboratory courses upon this one dimension of learning has been intensively studied in U.S. institutions using the Colorado Learning Attitudes about Science Survey for Experimental Physics (E-CLASS). However, there is no such an instrument available to use in Germany, and the influence of laboratory courses on students views about the nature of experimental physics is still unexplored at German-speaking institutions. Motivated by the lack of an assessment tool to investigate this goal in laboratory courses at German-speaking institutions, we present a translated version of the E-CLASS adapted to the context at German-speaking institutions. We call the German version of the E-CLASS, the GE-CLASS. We describe the translation process and the creation of an automated web-based system for instructors to assess their laboratory courses. We also present first results using GE-CLASS obtained at the University of Potsdam. A first comparison between E-CLASS and GE-CLASS results shows clear differences between University of Potsdam and U.S. students’ views and beliefs about experimental physics. Y1 - 2022 U6 - https://doi.org/10.1103/PhysRevPhysEducRes.18.010135 SN - 1554-9178 VL - 18 SP - 010135-1 EP - 010135-17 PB - APS CY - College Park, Maryland, United States ET - 1 ER - TY - JOUR A1 - Cestnik, Rok A1 - Pikovsky, Arkady T1 - Hierarchy of exact low-dimensional reductions for populations of coupled oscillators JF - Physical review letters N2 - We consider an ensemble of phase oscillators in the thermodynamic limit, where it is described by a kinetic equation for the phase distribution density. We propose an Ansatz for the circular moments of the distribution (Kuramoto-Daido order parameters) that allows for an exact truncation at an arbitrary number of modes. In the simplest case of one mode, the Ansatz coincides with that of Ott and Antonsen [Chaos 18, 037113 (2008)]. Dynamics on the extended manifolds facilitate higher-dimensional behavior such as chaos, which we demonstrate with a simulation of a Josephson junction array. The findings are generalized for oscillators with a Cauchy-Lorentzian distribution of natural frequencies. Y1 - 2022 U6 - https://doi.org/10.1103/PhysRevLett.128.054101 SN - 0031-9007 SN - 1079-7114 VL - 128 IS - 5 PB - American Physical Society CY - College Park ER - TY - JOUR A1 - Sarabadani, Jalal A1 - Metzler, Ralf A1 - Ala-Nissila, Tapio T1 - Driven polymer translocation into a channel: Isoflux tension propagation theory and Langevin dynamics simulations JF - Physical Review Research N2 - Isoflux tension propagation (IFTP) theory and Langevin dynamics (LD) simulations are employed to study the dynamics of channel-driven polymer translocation in which a polymer translocates into a narrow channel and the monomers in the channel experience a driving force fc. In the high driving force limit, regardless of the channel width, IFTP theory predicts τ ∝ f βc for the translocation time, where β = −1 is the force scaling exponent. Moreover, LD data show that for a very narrow channel fitting only a single file of monomers, the entropic force due to the subchain inside the channel does not play a significant role in the translocation dynamics and the force exponent β = −1 regardless of the force magnitude. As the channel width increases the number of possible spatial configurations of the subchain inside the channel becomes significant and the resulting entropic force causes the force exponent to drop below unity. Y1 - 2022 U6 - https://doi.org/10.1103/PhysRevResearch.4.033003 SN - 2643-1564 VL - 4 SP - 033003-1 EP - 033003-14 PB - American Physical Society CY - College Park, Maryland, USA ET - 3 ER - TY - JOUR A1 - Sposini, Vittoria A1 - Krapf, Diego A1 - Marinari, Enzo A1 - Sunyer, Raimon A1 - Ritort, Felix A1 - Taheri, Fereydoon A1 - Selhuber-Unkel, Christine A1 - Benelli, Rebecca A1 - Weiss, Matthias A1 - Metzler, Ralf A1 - Oshanin, Gleb T1 - Towards a robust criterion of anomalous diffusion JF - Communications Physics N2 - Anomalous-diffusion, the departure of the spreading dynamics of diffusing particles from the traditional law of Brownian-motion, is a signature feature of a large number of complex soft-matter and biological systems. Anomalous-diffusion emerges due to a variety of physical mechanisms, e.g., trapping interactions or the viscoelasticity of the environment. However, sometimes systems dynamics are erroneously claimed to be anomalous, despite the fact that the true motion is Brownian—or vice versa. This ambiguity in establishing whether the dynamics as normal or anomalous can have far-reaching consequences, e.g., in predictions for reaction- or relaxation-laws. Demonstrating that a system exhibits normal- or anomalous-diffusion is highly desirable for a vast host of applications. Here, we present a criterion for anomalous-diffusion based on the method of power-spectral analysis of single trajectories. The robustness of this criterion is studied for trajectories of fractional-Brownian-motion, a ubiquitous stochastic process for the description of anomalous-diffusion, in the presence of two types of measurement errors. In particular, we find that our criterion is very robust for subdiffusion. Various tests on surrogate data in absence or presence of additional positional noise demonstrate the efficacy of this method in practical contexts. Finally, we provide a proof-of-concept based on diverse experiments exhibiting both normal and anomalous-diffusion. Y1 - 2022 U6 - https://doi.org/10.1038/s42005-022-01079-8 SN - 2399-3650 VL - 5 PB - Springer Nature CY - London ER - TY - JOUR A1 - López de Guereñu Kurganova, Anna A1 - Klier, Dennis Tobias A1 - Haubitz, Toni A1 - Kumke, Michael Uwe T1 - Influence of Gd3+ doping concentration on the properties of Na(Y,Gd)F-4 BT - Yb3+, Tm3+ upconverting nanoparticles and their long-term aging behavior JF - Photochemical & photobiological sciences / European Society for Photobiology N2 - We present a systematic study on the properties of Na(Y,Gd)F-4-based upconverting nanoparticles (UCNP) doped with 18% Yb3+, 2% Tm3+, and the influence of Gd3+ (10-50 mol% Gd3+). UCNP were synthesized via the solvothermal method and had a range of diameters within 13 and 50 nm. Structural and photophysical changes were monitored for the UCNP samples after a 24-month incubation period in dry phase and further redispersion. Structural characterization was performed by means of X-ray diffraction (XRD), transmission electron microscopy (TEM) as well as dynamic light scattering (DLS), and the upconversion luminescence (UCL) studies were executed at various temperatures (from 4 to 295 K) using time-resolved and steady-state spectroscopy. An increase in the hexagonal lattice phase with the increase of Gd3+ content was found, although the cubic phase was prevalent in most samples. The Tm3+-luminescence intensity as well as the Tm3+-luminescence decay times peaked at the Gd3+ concentration of 30 mol%. Although the general upconverting luminescence properties of the nanoparticles were preserved, the 24-month incubation period lead to irreversible agglomeration of the UCNP and changes in luminescence band ratios and lifetimes. KW - Upconversion luminescence KW - Lanthanides KW - Near infra-red KW - Ultra-low KW - temperature KW - Time-resolved spectroscopy Y1 - 2022 U6 - https://doi.org/10.1007/s43630-021-00161-4 SN - 1474-905X SN - 1474-9092 VL - 21 IS - 2 SP - 235 EP - 245 PB - Springer CY - Heidelberg ER - TY - JOUR A1 - Vilk, Ohad A1 - Aghion, Erez A1 - Avgar, Tal A1 - Beta, Carsten A1 - Nagel, Oliver A1 - Sabri, Adal A1 - Sarfati, Raphael A1 - Schwartz, Daniel K. A1 - Weiß, Matthias A1 - Krapf, Diego A1 - Nathan, Ran A1 - Metzler, Ralf A1 - Assaf, Michael T1 - Unravelling the origins of anomalous diffusion BT - from molecules to migrating storks JF - Physical Review Research N2 - Anomalous diffusion or, more generally, anomalous transport, with nonlinear dependence of the mean-squared displacement on the measurement time, is ubiquitous in nature. It has been observed in processes ranging from microscopic movement of molecules to macroscopic, large-scale paths of migrating birds. Using data from multiple empirical systems, spanning 12 orders of magnitude in length and 8 orders of magnitude in time, we employ a method to detect the individual underlying origins of anomalous diffusion and transport in the data. This method decomposes anomalous transport into three primary effects: long-range correlations (“Joseph effect”), fat-tailed probability density of increments (“Noah effect”), and nonstationarity (“Moses effect”). We show that such a decomposition of real-life data allows us to infer nontrivial behavioral predictions and to resolve open questions in the fields of single-particle tracking in living cells and movement ecology. Y1 - 2022 U6 - https://doi.org/10.1103/PhysRevResearch.4.033055 SN - 2643-1564 VL - 4 IS - 3 SP - 033055-1 EP - 033055-16 PB - American Physical Society CY - College Park, MD ER - TY - JOUR A1 - Seckler, Henrik A1 - Metzler, Ralf T1 - Bayesian deep learning for error estimation in the analysis of anomalous diffusion JF - Nature Communnications N2 - Modern single-particle-tracking techniques produce extensive time-series of diffusive motion in a wide variety of systems, from single-molecule motion in living-cells to movement ecology. The quest is to decipher the physical mechanisms encoded in the data and thus to better understand the probed systems. We here augment recently proposed machine-learning techniques for decoding anomalous-diffusion data to include an uncertainty estimate in addition to the predicted output. To avoid the Black-Box-Problem a Bayesian-Deep-Learning technique named Stochastic-Weight-Averaging-Gaussian is used to train models for both the classification of the diffusionmodel and the regression of the anomalous diffusion exponent of single-particle-trajectories. Evaluating their performance, we find that these models can achieve a wellcalibrated error estimate while maintaining high prediction accuracies. In the analysis of the output uncertainty predictions we relate these to properties of the underlying diffusion models, thus providing insights into the learning process of the machine and the relevance of the output. KW - random-walk KW - models Y1 - 2022 U6 - https://doi.org/10.1038/s41467-022-34305-6 SN - 2041-1723 VL - 13 PB - Nature Publishing Group UK CY - London ER - TY - JOUR A1 - Mayer, Dennis A1 - Lever, Fabiano A1 - Gühr, Markus T1 - Data analysis procedures for time-resolved x-ray photoelectron spectroscopy at a SASE free-electron-laser JF - Journal of physics : B, Atomic, molecular and optical physics N2 - The random nature of self-amplified spontaneous emission (SASE) is a well-known challenge for x-ray core level spectroscopy at SASE free-electron lasers (FELs). Especially in time-resolved experiments that require a combination of good temporal and spectral resolution the jitter and drifts in the spectral characteristics, relative arrival time as well as power fluctuations can smear out spectral-temporal features. We present a combination of methods for the analysis of time-resolved photoelectron spectra based on power and time corrections as well as self-referencing of a strong photoelectron line. Based on sulfur 2p photoelectron spectra of 2-thiouracil taken at the SASE FEL FLASH2, we show that it is possible to correct for some of the photon energy drift and jitter even when reliable shot-to-shot photon energy data is not available. The quality of pump-probe difference spectra improves as random jumps in energy between delay points reduce significantly. The data analysis allows to identify coherent oscillations of 1 eV shift on the mean photoelectron line of 4 eV width with an error of less than 0.1 eV. KW - free-electron laser KW - photoelectron spectroscopy KW - FLASH Y1 - 2022 U6 - https://doi.org/10.1088/1361-6455/ac3c91 SN - 0953-4075 SN - 1361-6455 VL - 55 IS - 5 PB - IOP Publ. CY - Bristol ER - TY - JOUR A1 - Anders, Janet A1 - Sait, Connor R. J. A1 - Horsley, Simon A. R. T1 - Quantum Brownian motion for magnets JF - New journal of physics : the open-access journal for physics N2 - Spin precession in magnetic materials is commonly modelled with the classical phenomenological Landau-Lifshitz-Gilbert (LLG) equation. Based on a quantized three-dimensional spin + environment Hamiltonian, we here derive a spin operator equation of motion that describes precession and includes a general form of damping that consistently accounts for memory, coloured noise and quantum statistics. The LLG equation is recovered as its classical, Ohmic approximation. We further introduce resonant Lorentzian system-reservoir couplings that allow a systematic comparison of dynamics between Ohmic and non-Ohmic regimes. Finally, we simulate the full non-Markovian dynamics of a spin in the semi-classical limit. At low temperatures, our numerical results demonstrate a characteristic reduction and flattening of the steady state spin alignment with an external field, caused by the quantum statistics of the environment. The results provide a powerful framework to explore general three-dimensional dissipation in quantum thermodynamics. KW - open quantum systems KW - coloured and quantum noise KW - memory effects KW - spin KW - dynamics KW - LLG equation KW - magnetisation KW - quantum thermodynamics Y1 - 2022 U6 - https://doi.org/10.1088/1367-2630/ac4ef2 SN - 1367-2630 VL - 24 IS - 3 PB - IOP Publ. Ltd. CY - Bristol ER - TY - THES A1 - Ilin, Ekaterina T1 - High lights: stellar flares as probes of magnetism in stars and star-planet systems T1 - Highlights: Sterneruptionen als Sonden des Magnetismus in Sternen und Stern-Planeten Systemen N2 - Flares are magnetically driven explosions that occur in the atmospheres of all main sequence stars that possess an outer convection zone. Flaring activity is rooted in the magnetic dynamo that operates deep in the stellar interior, propagates through all layers of the atmosphere from the corona to the photosphere, and emits electromagnetic radiation from radio bands to X-ray. Eventually, this radiation, and associated eruptions of energetic particles, are ejected out into interplanetary space, where they impact planetary atmospheres, and dominate the space weather environments of young star-planet systems. Thanks to the Kepler and the Transit Exoplanet Survey Satellite (TESS) missions, flare observations have become accessible for millions of stars and star-planet systems. The goal of this thesis is to use these flares as multifaceted messengers to understand stellar magnetism across the main sequence, investigate planetary habitability, and explore how close-in planets can affect the host star. Using space based observations obtained by the Kepler/K2 mission, I found that flaring activity declines with stellar age, but this decline crucially depends on stellar mass and rotation. I calibrated the age of the stars in my sample using their membership in open clusters from zero age main sequence to solar age. This allowed me to reveal the rapid transition from an active, saturated flaring state to a more quiescent, inactive flaring behavior in early M dwarfs at about 600-800 Myr. This result is an important observational constraint on stellar activity evolution that I was able to de-bias using open clusters as an activity-independent age indicator. The TESS mission quickly superseded Kepler and K2 as the main source of flares in low mass M dwarfs. Using TESS 2-minute cadence light curves, I developed a new technique for flare localization and discovered, against the commonly held belief, that flares do not occur uniformly across their stellar surface: In fast rotating fully convective stars, giant flares are preferably located at high latitudes. This bears implications for both our understanding of magnetic field emergence in these stars, and the impact on the exoplanet atmospheres: A planet that orbits in the equatorial plane of its host may be spared from the destructive effects of these poleward emitting flares. AU Mic is an early M dwarf, and the most actively flaring planet host detected to date. Its innermost companion, AU Mic b is one of the most promising targets for a first observation of flaring star-planet interactions. In these interactions, the planet influences the star, as opposed to space weather, where the planet is always on the receiving side. The effect reflects the properties of the magnetosphere shared by planet and star, as well as the so far inaccessible magnetic properties of planets. In the about 50 days of TESS monitoring data of AU Mic, I searched for statistically robust signs of flaring interactions with AU Mic b as flares that occur in surplus of the star's intrinsic activity. I found the strongest yet still marginal signal in recurring excess flaring in phase with the orbital period of AU Mic b. If it reflects true signal, I estimate that extending the observing time by a factor of 2-3 will yield a statistically significant detection. Well within the reach of future TESS observations, this additional data may bring us closer to robustly detecting this effect than we have ever been. This thesis demonstrates the immense scientific value of space based, long baseline flare monitoring, and the versatility of flares as a carrier of information about the magnetism of star-planet systems. Many discoveries still lay in wait in the vast archives that Kepler and TESS have produced over the years. Flares are intense spotlights into the magnetic structures in star-planet systems that are otherwise far below our resolution limits. The ongoing TESS mission, and soon PLATO, will further open the door to in-depth understanding of small and dynamic scale magnetic fields on low mass stars, and the space weather environment they effect. N2 - Flares sind magnetisch getriebene Explosionen. Sie treten in den Atmosphären aller Hauptreihensterne mit einer äußeren Konvektionszone auf, und sind auf den magnetischen Dynamo zurückzuführen, der tief im Sterninneren arbeitet. Das entstehende Magnetfeld durchdringt alle Schichten der Atmosphäre von der Korona bis zur Photosphäre und sendet elektromagnetische Strahlung vom Radio- bis in den Röntgenbereich aus. Diese Strahlung und die damit verbundenen Eruptionen energiereicher Teilchen werden anschließend in den interplanetaren Raum geschleudert, wo sie auf die Planetenatmosphären treffen und das Weltraumwetter junger Stern-Planeten-Systeme bestimmen. Die Kepler und die Transiting Exoplanet Survey Satellite (TESS) Missionen haben in den letzten Jahren die systematische Beobachtung von Flares auf Millionen von Sternen ermöglicht. Das Ziel dieser Dissertation ist es, Flares in jungen Sternen und Stern-Planeten-Systemen als vielseitige Werkzeuge zur Sondierung des stellaren Magnetismus auf der Hauptreihe zu etablierten, ihre Rolle bei der Bewohnbarkeit von Planeten zu untersuchen und zu erforschen, wie die Wechselwirkung mit nahen Planeten die magnetische Aktivität des Wirtssterns beeinflusst. Anhand von weltraumgestützten Beobachtungen der Kepler/K2-Mission habe ich herausgefunden, dass die Flare-Aktivität mit dem Alter des Sterns abnimmt, wobei dieser Rückgang entscheidend von der Masse und der Rotation des Sterns abhängt. Ich kalibrierte das Alter der Sterne in meiner Stichprobe anhand ihrer Zugehörigkeit zu offenen Sternhaufen von der Nullalter-Hauptreihe bis zum Zustand der heutigen Sonne. Auf diese Weise konnte ich den schnellen Übergang von einer aktiven, gesättigten Flare-Aktivität zu einem ruhigeren, inaktiven Zustand bei frühen M-Zwergen bei etwa 600-800 Millionen Jahren aufdecken. Dieser Zeitpunkt ist eine wichtige Randbedingung für die Entwicklung der Sternaktivität, die ich Dank der offenen Sternhaufen als aktivitätsunabhängigem Altersindikator eindeutig bestimmen konnte. Die TESS-Mission hat Kepler und K2 bereits als Hauptquelle von Flares in M-Zwergen abgelöst. Anhand der zeitlich hochaufgelösten Lichtkurven von TESS entwickelte ich eine neue Technik zur Lokalisierung von Flares und entdeckte, dass -- entgegen der allgemeinen Annahme -- Flares nicht gleichmäßig über die Sternoberfläche verteilt sind: Bei schnell rotierenden, vollkonvektiven Sternen sind die energiereichsten Flares bevorzugt bei hohen Breitengraden zu finden. Das Ergebnis hat Auswirkungen sowohl auf unser Verständnis der Magnetfeldentstehung in diesen Sternen als auch auf die Auswirkungen auf die Atmosphären von Planeten, die in deren Äquatorebene kreisen. Die jungen Welten könnten durch die Lage ihrer Orbits den zerstörerischen Auswirkungen dieser polwärts strahlenden Flares entkommen. AU Mic ist ein früher M-Zwerg und der bisher magnetisch aktivste Stern mit bekannten Planeten. Sein innerster Begleiter, AU Mic b, ist eines der vielversprechendsten Ziele für eine erste Beobachtung der Wechselwirkungen zwischen Stern und Planet. Dabei beeinflusst der Planet den Stern, und nicht, wie bei Weltraumwetter, andersherum. In diesem Effekt spiegeln sich die Eigenschaften der von beiden geteilten Magnetosphäre, sowie beispielsweise die bisher unzugänglichen magnetischen Eigenschaften von Planeten. In den vorhandenen etwa 50 Tagen von TESS-Beobachtungsdaten von AU Mic suchte ich nach statistisch robusten Anzeichen für magnetische Wechselwirkungen mit AU Mic b, die sich als Flares offenbaren, die im Überschuss zur Eigenaktivität des Sterns auftreten. Das stärkste, aber doch vorläufige Signal fand ich in mit der Umlaufperiode von AU Mic b wiederkehrenden, überzähligen Flares. Wenn es sich hierbei um ein wahres Signal handelt, schätze ich anhand der Daten, dass eine Verlängerung der Beobachtungszeit um einen Faktor 2-3 einen statistisch signifikanten Nachweis erbringen wird. Die Anforderung liegt in Bereich zukünftiger TESS-Beobachtungen, und bringt uns somit womöglich näher an eine robuste Detektion dieses Effekts heran, als wir es jemals waren. Die Untersuchungen in dieser Arbeit sind nur durch das Eintreten ins Zeitalter der Flare-Statistik möglich geworden. Diese Arbeit demonstriert den immensen wissenschaftlichen Wert der weltraumgestützten, wochen- und monatelangen Beobachtung von Flares, als auch die Vielseitigkeit von Flares als Informationsträger über den dynamischen Magnetismus in Stern-Planeten-Systemen. In den riesigen Archiven, die Kepler und TESS im Laufe der Jahre angelegt haben, schlummern noch viele Entdeckungen. Flares werfen kontrastreiche Schlaglichter auf magnetische Strukturen in Stern-Planeten-Systemen, die sonst weit unterhalb der modernen Auflösungsgrenze liegen. Die laufenden Beobachtungen von TESS, und bald PLATO, werden die Tür zu einem tiefen Verständnis der kleinen und dynamischen Magnetfelder in diesen Systemen weiter öffnen. KW - stars KW - exoplanets KW - flares KW - Exoplaneten KW - Flares KW - Sterne Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-563565 ER - TY - THES A1 - Zeuschner, Steffen Peer T1 - Magnetoacoustics observed with ultrafast x-ray diffraction N2 - In the present thesis I investigate the lattice dynamics of thin film hetero structures of magnetically ordered materials upon femtosecond laser excitation as a probing and manipulation scheme for the spin system. The quantitative assessment of laser induced thermal dynamics as well as generated picosecond acoustic pulses and their respective impact on the magnetization dynamics of thin films is a challenging endeavor. All the more, the development and implementation of effective experimental tools and comprehensive models are paramount to propel future academic and technological progress. In all experiments in the scope of this cumulative dissertation, I examine the crystal lattice of nanoscale thin films upon the excitation with femtosecond laser pulses. The relative change of the lattice constant due to thermal expansion or picosecond strain pulses is directly monitored by an ultrafast X-ray diffraction (UXRD) setup with a femtosecond laser-driven plasma X-ray source (PXS). Phonons and spins alike exert stress on the lattice, which responds according to the elastic properties of the material, rendering the lattice a versatile sensor for all sorts of ultrafast interactions. On the one hand, I investigate materials with strong magneto-elastic properties; The highly magnetostrictive rare-earth compound TbFe2, elemental Dysprosium or the technological relevant Invar material FePt. On the other hand I conduct a comprehensive study on the lattice dynamics of Bi1Y2Fe5O12 (Bi:YIG), which exhibits high-frequency coherent spin dynamics upon femtosecond laser excitation according to the literature. Higher order standing spinwaves (SSWs) are triggered by coherent and incoherent motion of atoms, in other words phonons, which I quantified with UXRD. We are able to unite the experimental observations of the lattice and magnetization dynamics qualitatively and quantitatively. This is done with a combination of multi-temperature, elastic, magneto-elastic, anisotropy and micro-magnetic modeling. The collective data from UXRD, to probe the lattice, and time-resolved magneto-optical Kerr effect (tr-MOKE) measurements, to monitor the magnetization, were previously collected at different experimental setups. To improve the precision of the quantitative assessment of lattice and magnetization dynamics alike, our group implemented a combination of UXRD and tr-MOKE in a singular experimental setup, which is to my knowledge, the first of its kind. I helped with the conception and commissioning of this novel experimental station, which allows the simultaneous observation of lattice and magnetization dynamics on an ultrafast timescale under identical excitation conditions. Furthermore, I developed a new X-ray diffraction measurement routine which significantly reduces the measurement time of UXRD experiments by up to an order of magnitude. It is called reciprocal space slicing (RSS) and utilizes an area detector to monitor the angular motion of X-ray diffraction peaks, which is associated with lattice constant changes, without a time-consuming scan of the diffraction angles with the goniometer. RSS is particularly useful for ultrafast diffraction experiments, since measurement time at large scale facilities like synchrotrons and free electron lasers is a scarce and expensive resource. However, RSS is not limited to ultrafast experiments and can even be extended to other diffraction techniques with neutrons or electrons. N2 - In der vorliegenden Arbeit untersuche ich die Gitterdynamik von magnetisch geordneten und dünnen Filmen, deren Spinsystem mit Femtosekunden-Laserpulsen angeregt und untersucht wird. Die Quantifizierung der laserinduzierten thermischen Dynamik, der erzeugten Pikosekunden-Schallpulse sowie deren jeweiliger Einfluss auf die Magnetisierungsdynamik ist ein schwieriges Unterfangen. Umso mehr ist die Entwicklung und Anwendung von effizienten experimentellen Konzepten und umfangreichen Modellen grundlegend für das Antreiben des zukünftigen wissenschaftlichen und technologischen Fortschritt. In jedem Experiment dieser kummulativen Dissertation untersuche ich das Kristallgitter von Nanometer dünnen Filmen nach der Anregung mit Femtosekunden-Laserpulsen. Die relative Änderung der Gitterkonstante, hervorgerufen durch thermische Ausdehnung oder Pikosekunden-Schallpulse, wird dabei direkt mittels ultraschneller Röntgenbeugung (UXRD) gemessen. Der Aufbau nutzt zur Bereitstellung von ultrakurzen Röntgenpulsen eine lasergetriebene Plasma-Röntgenquelle (PXS). Phononen und Spins üben gleichermaßen einen Druck auf das Gitter aus, welches entsprechend der elastsischen Eigenschaften des Materials reagiert, was das Gitter zu einem vielseitigen Sensor für ultraschenlle Wechselwirkungen macht. Zum einen untersuche ich Materialien mit starken magnetoelastischen Eigentschaften: die stark magnetostriktive Seltenen-Erden-Verbindung TbFe2, elementares Dysprosium oder das technologisch relavante Invar-Material FePt. Zum anderen habe ich eine umfangreiche Studie der Gitterdynamik von Bi1Y2Fe5O12 (Bi:YIG) angestellt, in dem der Literatur zufolge hochfrequente kohärente Spindynamiken durch Femtosekunden-Laseranregung zu beobachten sind. Diese stehenden Spinwellen (SSWs) höherer Ordnung entstehen durch die kohärente und inkohärente Bewegung von Atomen, in anderen Worten Phononen, welche ich durch UXRD vermessen habe. Somit sind wir in der Lage, die experimentellen Beobachtungen der Gitter- und Spindynamik qualitativ und quantitativ zu vereinigen. Dies geschieht durch eine Kombination von Viel-Temperatur- und Anisotropiemodellierung sowie elastische, magnetoelastische, und mikromagnetsiche Modelle. Die gemeinsamen Daten von UXRD und der zeitaufgelösten magnetooptischen Kerr-Effekt Messungen (tr-MOKE), um jeweils die Gitter- und Spindynamik zu messen, wurden in der Vergangenheit noch an unterschiedlichen experimentellen Aufbauten gemessen. Um die Quantifizierung präziser zu gestalten, haben wir in unserer Arbeitsgruppe UXRD und tr-MOKE in einem einzigen Aufbau kombiniert, welcher somit meines Wissens der erste seiner Art ist. Ich half bei dem Entwurf und der Inbetriebnahme des neuen Aufbaus, welcher die gleichzeitige Messung von Gitter- und Spindynamik auf einer ultraschnellen Zeitskala unter identischen Anregungsbedingungen ermöglicht. Außerdem entwickelte ich eine neue Messroutine für Röntgenbeugung, welche die Messzeit von UXRD-Experimenten um bis zu einer Größenordnungen reduziert. Es nennt sich das Schneiden des reziproken Raumes (reciprocal space slicing, RSS) und nutzt den Vorteil von Flächendetektoren die Bewegung von Beugungsreflexen zu detektieren, was von einer Änderung der Gitterkonstante einhergeht, ohne zeitintensive Scans der Beugungswinkel mit dem Goniometer durchzuführen. RSS ist besonders nützlich für ultraschnelle Beugungsexperimente, weil die Messzeit an Großgeräten wie Synchrotrons oder Freie Elektronen Laser eine seltene und teure Ressource ist. Darüber hinaus ist RSS nicht zwangsläufig auf die Anwendung in ultraschnellen Experimenten beschränkt und kann sogar auf andere Beugungsexperimente, wie die mit Neutronen und Elektronen, ausgeweitet werden. KW - ultrafast KW - X-ray diffraction KW - thin films KW - magnetoelasticity KW - ultraschnell KW - Röntgenbeugung KW - dünne Filme KW - Magnetoelastizität Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-561098 ER - TY - THES A1 - Mayer, Dennis T1 - Time-resolved x-ray spectroscopy of 2-thiouracil T1 - Zeitaufgelöste Röntgenspektroskopie an 2-Thiouracil N2 - In this thesis, I present my contributions to the field of ultrafast molecular spectroscopy. Using the molecule 2-thiouracil as an example, I use ultrashort x-ray pulses from free- electron lasers to study the relaxation dynamics of gas-phase molecular samples. Taking advantage of the x-ray typical element- and site-selectivity, I investigate the charge flow and geometrical changes in the excited states of 2-thiouracil. In order to understand the photoinduced dynamics of molecules, knowledge about the ground-state structure and the relaxation after photoexcitation is crucial. Therefore, a part of this thesis covers the electronic ground-state spectroscopy of mainly 2-thiouracil to provide the basis for the time-resolved experiments. Many of the previously published studies that focused on the gas-phase time-resolved dynamics of thionated uracils after UV excitation relied on information from solution phase spectroscopy to determine the excitation energies. This is not an optimal strategy as solvents alter the absorption spec- trum and, hence, there is no guarantee that liquid-phase spectra resemble the gas-phase spectra. Therefore, I measured the UV-absorption spectra of all three thionated uracils to provide a gas-phase reference and, in combination with calculations, we determined the excited states involved in the transitions. In contrast to the UV absorption, the literature on the x-ray spectroscopy of thionated uracil is sparse. Thus, we measured static photoelectron, Auger-Meitner and x-ray absorption spectra on the sulfur L edge before or parallel to the time-resolved experiments we performed at FLASH (DESY, Hamburg). In addition, (so far unpublished) measurements were performed at the synchrotron SOLEIL (France) which have been included in this thesis and show the spin-orbit splitting of the S 2p photoline and its satellite which was not observed at the free-electron laser. The relaxation of 2-thiouracil has been studied extensively in recent years with ultrafast visible and ultraviolet methods showing the ultrafast nature of the molecular process after photoexcitation. Ultrafast spectroscopy probing the core-level electrons provides a complementary approach to common optical ultrafast techniques. The method inherits its local sensitivity from the strongly localised core electrons. The core energies and core-valence transitions are strongly affected by local valence charge and geometry changes, and past studies have utilised this sensitivity to investigate the molecular process reflected by the ultrafast dynamics. We have built an apparatus that provides the requirements to perform time-resolved x-ray spectroscopy on molecules in the gas phase. With the apparatus, we performed UV-pump x-ray-probe electron spectroscopy on the S 2p edge of 2-thiouracil using the free-electron laser FLASH2. While the UV triggers the relaxation dynamics, the x-ray probes the single sulfur atom inside the molecule. I implemented photoline self-referencing for the photoelectron spectral analysis. This minimises the spectral jitter of the FEL, which is due to the underlying self-amplified spontaneous emission (SASE) process. With this approach, we were not only able to study dynamical changes in the binding energy of the electrons but also to detect an oscillatory behaviour in the shift of the observed photoline, which we associate with non-adiabatic dynamics involving several electronic states. Moreover, we were able to link the UV-induced shift in binding energy to the local charge flow at the sulfur which is directly connected to the electronic state. Furthermore, the analysis of the Auger-Meitner electrons shows that energy shifts observed at early stages of the photoinduced relaxation are related to the geometry change in the molecule. More specifically, the observed increase in kinetic energy of the Auger-Meitner electrons correlates with a previously predicted C=S bond stretch. N2 - In dieser Arbeit präsentiere ich meine Beiträge zum Gebiet der ultraschnellen Molekülspektroskopie. Am Beispiel des Moleküls 2-Thiouracil verwende ich ultrakurze Röntgenpulse von Freie-Elektronen-Lasern, um die Relaxationsdynamik von Molekülproben in der Gasphase zu untersuchen. Unter Ausnutzung der für Röntgenstrahlung typischen Element- und Ortsselektivität untersuche ich den Ladungsfluss und die geometrischen Veränderungen in den angeregten Zuständen von 2-Thiouracil. Um die photoinduzierte Dynamik von Molekülen zu verstehen, ist das Wissen über die Grundzustandsstruktur und die Relaxation nach Photoanregung entscheidend. Daher befasst sich ein Teil dieser Arbeit mit der elektronischen Grundzustandsspektroskopie von 2-Thiouracil, um die Grundlage für die zeitaufgelösten Experimente zu schaffen. Viele der bisher veröffentlichten Studien, die sich mit der zeitaufgelösten Dynamik von Thiouracilen in der Gasphase nach UV-Anregung befassten, stützten sich zur Bestimmung der Anregungsenergien auf Informationen aus der Spektroskopie in Lösung. Dies ist nicht optimal, da Lösungsmittel das Absorptionsspektrum verändern und es daher keine Garantie dafür gibt, dass die Spektren in Lösung den Spektren der Gasphase ähneln. Daher habe ich die UV-Absorptionsspektren aller drei Thiouracile gemessen, um eine Referenz für die Gasphase zu erhalten, und in Kombination mit Berechnungen die an den Übergängen beteiligten angeregten Zustände bestimmt. Im Gegensatz zur UV-Absorption ist die Literatur zur Röntgenspektroskopie von thioniertem Uracil spärlich. Daher haben wir statische Photoelektronen-, Auger-Meitner- und Röntgenabsorptionsspektren an der Schwefel-L-Kante vor oder parallel zu den zeitaufgelösten Experimenten an FLASH (DESY, Hamburg) gemessen. Darüber hinaus wurden (bisher unveröffentlichte) Messungen am Synchrotron SOLEIL (Frankreich) durchgeführt, die in diese Arbeit eingeflossen sind und die Spin-Orbit-Aufspaltung der S 2p-Photolinie und ihres Satelliten zeigen, die am Freie-Elektronen-Laser nicht beobachtet wurde. Die Relaxation von 2-Thiouracil wurde in den letzten Jahren ausgiebig mit ultraschnellen Methoden im sichtbaren und ultravioletten Spektralbereich untersucht, die die ultraschnelle Natur des molekularen Prozesses nach der Photoanregung zeigen. Die ultraschnelle Spektroskopie, bei der die Elektronen des Kernniveaus untersucht werden, bietet einen ergänzenden Ansatz zu den üblichen optischen Techniken. Die Methode erhält ihre lokale Empfindlichkeit durch die stark lokalisierten Kernelektronen. Die Kernenergien und Kern-Valenz-Übergänge werden stark von lokalen Valenzladungs- und Geometrieänderungen beeinflusst, und frühere Studien haben diese Empfindlichkeit genutzt, um den molekularen Prozess zu untersuchen, der sich in der ultraschnellen Dynamik widerspiegelt. Wir haben eine Apparatur gebaut, die die Voraussetzungen für die Durchführung zeitaufgelöster Röntgenspektroskopie an Molekülen in der Gasphase bietet. Mit dieser Apparatur haben wir Anregungs-Abfrage-Elektronenspektroskopie an der S 2p-Kante von 2-Thiouracil an dem Freie-Elektronen-Laser FLASH2 durchgeführt. Zuerst triggert ein UV-Puls die Relaxationsdynamik und anschließend tastet ein Röntgenpuls das einzelne Schwefelatom im Inneren des Moleküls ab. Für die Analyse der Photoelektronenspektren habe ich eine Selbstrefernzierung der Photolinie implementiert, mit deren Hilfe der spektrale Jitter des FEL minimiert werden konnte. Dieser ist auf den zugrunde liegenden Prozess der selbstverstärkten spontanen Emission (SASE) zurückzuführen. Mit diesem Ansatz konnten wir nicht nur dynamische Veränderungen in der Bindungsenergie der Elektronen untersuchen, sondern auch ein oszillierendes Verhalten in der Verschiebung der beobachteten Photolinie feststellen, das wir mit einer nicht-adiabatischen Dynamik in Verbindung bringen, an der mehrere elektronische Zustände beteiligt sind. Außerdem konnten wir die UV-induzierte Verschiebung der Bindungsenergie mit dem lokalen Ladungsfluss am Schwefel in Verbindung bringen, der direkt mit dem elektronischen Zustand verbunden ist. Darüber hinaus zeigt die Analyse der Auger-Meitner-Elektronen, dass die in frühen Stadien der photoinduzierten Relaxation beobachteten Energieverschiebungen mit der Geometrieänderung des Moleküls zusammenhängen. Genauer gesagt korreliert der beobachtete Anstieg der kinetischen Energie der Auger-Meitner-Elektronen mit einer zuvor vorhergesagten Dehnung der C=S-Bindung. KW - thiouracil KW - ultrafast molecular dynamics KW - x-ray spectroscopy KW - Auger-Meitner electron spectroscopy KW - photoelectron spectroscopy KW - free-electron laser KW - FLASH KW - excited-state chemical shift KW - Thiouracil KW - ultraschnelle Moleküldynamik KW - Röntgenspektroskopie KW - Photoelektronenspektroskopie KW - pump-probe spectroscopy KW - Freie-Elektronen-Laser KW - Anregungs-Abfrage-Spektroskopie Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-571636 ER - TY - JOUR A1 - Seckler, Henrik A1 - Metzler, Ralf T1 - Bayesian deep learning for error estimation in the analysis of anomalous diffusion JF - Nature Communications N2 - Modern single-particle-tracking techniques produce extensive time-series of diffusive motion in a wide variety of systems, from single-molecule motion in living-cells to movement ecology. The quest is to decipher the physical mechanisms encoded in the data and thus to better understand the probed systems. We here augment recently proposed machine-learning techniques for decoding anomalous-diffusion data to include an uncertainty estimate in addition to the predicted output. To avoid the Black-Box-Problem a Bayesian-Deep-Learning technique named Stochastic-Weight-Averaging-Gaussian is used to train models for both the classification of the diffusion model and the regression of the anomalous diffusion exponent of single-particle-trajectories. Evaluating their performance, we find that these models can achieve a well-calibrated error estimate while maintaining high prediction accuracies. In the analysis of the output uncertainty predictions we relate these to properties of the underlying diffusion models, thus providing insights into the learning process of the machine and the relevance of the output.
Diffusive motions in complex environments such as living biological cells or soft matter systems can be analyzed with single-particle-tracking approaches, where accuracy of output may vary. The authors involve a machine-learning technique for decoding anomalous-diffusion data and provide an uncertainty estimate together with predicted output. Y1 - 2022 U6 - https://doi.org/10.1038/s41467-022-34305-6 SN - 2041-1723 VL - 13 IS - 1 PB - Nature portfolio CY - Berlin ER - TY - THES A1 - Vu, Nils Leif T1 - A task-based parallel elliptic solver for numerical relativity with discontinuous Galerkin methods N2 - Elliptic partial differential equations are ubiquitous in physics. In numerical relativity---the study of computational solutions to the Einstein field equations of general relativity---elliptic equations govern the initial data that seed every simulation of merging black holes and neutron stars. In the quest to produce detailed numerical simulations of these most cataclysmic astrophysical events in our Universe, numerical relativists resort to the vast computing power offered by current and future supercomputers. To leverage these computational resources, numerical codes for the time evolution of general-relativistic initial value problems are being developed with a renewed focus on parallelization and computational efficiency. Their capability to solve elliptic problems for accurate initial data must keep pace with the increasing detail of the simulations, but elliptic problems are traditionally hard to parallelize effectively. In this thesis, I develop new numerical methods to solve elliptic partial differential equations on computing clusters, with a focus on initial data for orbiting black holes and neutron stars. I develop a discontinuous Galerkin scheme for a wide range of elliptic equations, and a stack of task-based parallel algorithms for their iterative solution. The resulting multigrid-Schwarz preconditioned Newton-Krylov elliptic solver proves capable of parallelizing over 200 million degrees of freedom to at least a few thousand cores, and already solves initial data for a black hole binary about ten times faster than the numerical relativity code SpEC. I also demonstrate the applicability of the new elliptic solver across physical disciplines, simulating the thermal noise in thin mirror coatings of interferometric gravitational-wave detectors to unprecedented accuracy. The elliptic solver is implemented in the new open-source SpECTRE numerical relativity code, and set up to support simulations of astrophysical scenarios for the emerging era of gravitational-wave and multimessenger astronomy. N2 - Elliptische partielle Differentialgleichungen sind in der Physik allgegenwärtig. Das elektrische Feld einer Ladung, die Gravitation der Erde, die Statik einer Brücke, oder die Temperaturverteilung auf einer heißen Herdplatte folgen trotz verschiedenster zugrundeliegender Physik elliptischen Gleichungen ähnlicher Struktur, denn es sind statische, also zeitunabhängige Effekte. Elliptische Gleichungen beschreiben auch astrophysikalische Szenarien von kataklysmischen Ausmaßen, die jegliche Gegebenheiten auf der Erde weit überschreiten. So werden Schwarze Löcher und Neutronensterne -- zwei mögliche Endstadien von massereichen Sternen -- ebenfalls von elliptischen Gleichungen beschrieben. In diesem Fall sind es Einstein's Feldgleichungen von Raum, Zeit, Gravitation und Materie. Da Schwarze Löcher und Neutronensterne mehr Masse als unsere Sonne auf die Größe einer Stadt wie Potsdam komprimieren übernimmt die Gravitation, und damit Einstein's allgemeine Relativitätstheorie, die Kontrolle. Es ist die Aufgabe der numerischen Relativität, Szenarien wie die Kollision solcher gewaltigen Objekte mithilfe von Supercomputern zu simulieren und damit die Gravitationswellensignale vorherzusagen, die von Detektoren auf der Erde gemessen werden können. Jede dieser Simulationen beginnt mit Anfangsdaten, die elliptische Gleichungen erfüllen müssen. In dieser Dissertation entwickle ich neue numerische Methoden um elliptische partielle Differentialgleichungen auf Supercomputern zu lösen, mit besonderem Augenmerk auf Anfangsdaten für Simulationen von Schwarzen Löchern und Neutronensternen. Ich entwickle dafür eine sogenannte discontinuous Galerkin Methode um elliptische Gleichungen auf Computern zu repräsentieren, sowie eine Reihe von Algorithmen um diese Gleichungen anschließend schrittweise numerisch zu lösen bis sie die notwendige Präzision erfüllen. Die Besonderheit dieser Algorithmen liegt in ihrer Eigenschaft, in viele Teilprobleme zerlegt auf einer großen Zahl von Rechenkernen parallel arbeiten zu können. Dieses task-based parallelism ermöglicht die effektive Verwendung von Supercomputern. Ich demonstriere die Fähigkeit meiner Algorithmen, Berechnungen von über 200 Millionen Unbekannten mit hoher Effizienz auf mindestens einige Tausend Rechenkerne verteilen zu können, und Anfangsdaten zweier sich umkreisender Schwarzer Löcher bereits etwa zehnmal schneller zu lösen als der langjährig verwendete Computercode SpEC. Außerdem zeige ich, dass mein neuer Code auch außerhalb der Relativitätstheorie anwendbar ist. Dazu simuliere ich thermisches Rauschen in den Beschichtungen von Spiegeln, das ebenfalls von elliptischen Gleichungen beschrieben wird. Solche Spiegel sind Objekt großen Forschungsinteresses, da sie ein zentrales Element von Gravitationswellendetektoren darstellen. Mein Code zur numerischen Lösung elliptischer Gleichungen ist Teil des kollaborativen und quelloffenen SpECTRE Forschungsprojekts zur Simulation astrophysikalischer Szenarien für die aufstrebende Ära der Gravitationswellen- und Multimessenger-Astronomie. KW - numerical relativity KW - task-based parallelism KW - discontinuous Galerkin methods KW - elliptic partial differential equations KW - black holes KW - initial data KW - high-performance computing KW - iterative methods for sparse linear systems KW - gravitational waves KW - thermal noise in mirror coatings KW - numerische Relativität KW - elliptische partielle Differentialgleichungen KW - schwarze Löcher KW - Anfangsdaten KW - Hochleistungscomputer KW - iterative Methoden zur Lösung linearer Systeme KW - Gravitationswellen KW - thermisches Rauschen in Spiegelbeschichtungen Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-562265 ER - TY - JOUR A1 - Regenstein, Wolfgang T1 - Statistische Beschreibung des Resonanzenergietransfers in Lösungen N2 - In resonance energy transfer, photons are transferred from an excited donor to an acceptor over an interaction distance. According to Förster's quantum mechanical theory, this distance can be calculated using the overlap integral of the fluorescence spectrum of the donor and the absorption spectrum of the acceptor. Another possibility of determination is obtained with the help of statistical models, which are compiled in an overview. The distance can be determined by evaluating the extinction curve. In this work, a further statistical variant of the determination of the interaction radius is added and demonstrated in detail using an example. N2 - Beim Resonanzenergietransfer werden Fotonen von einem angeregten Donator über einen Wechselwirkungsabstand auf einen Akzeptor übertragen. Nach der quantenmechanischen Theorie von FÖRSTER kann dieser Abstand mit Hilfe des Überlappungsintegrals von Fluoreszenzspektrum des Donators und Absorp-tionsspektrum des Akzeptors berechnet werden. Eine andere Möglichkeit der Bestimmung erhält man mit Hilfe von statistischen Modellen, die in einem Überblick zusammengestellt sind. Dabei kann der Abstand durch Auswertung der Löschkurve bestimmt werden. In dieser Arbeit wird dazu eine weitere statistische Variante der Bestimmung des Wechselwirkungsradius hinzugefügt und an einem Beispiel ausführlich demonstriert. KW - resonant energy transfer KW - statistical models KW - theory of Förster KW - quenching curve KW - interaction distance KW - Resonanzenergietransfer KW - statistische Modelle KW - Theorie von Förster KW - Löschkurve KW - Wechselwirkungsabstand Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-565009 ER - TY - THES A1 - Thomas, Timon T1 - Cosmic-ray hydrodynamics: theory, numerics, applications T1 - Hydrodynamik der kosmischen Strahlung: Theorie, Numerik, Anwendungen N2 - Cosmic rays (CRs) are a ubiquitous and an important component of astrophysical environments such as the interstellar medium (ISM) and intracluster medium (ICM). Their plasma physical interactions with electromagnetic fields strongly influence their transport properties. Effective models which incorporate the microphysics of CR transport are needed to study the effects of CRs on their surrounding macrophysical media. Developing such models is challenging because of the conceptional, length-scale, and time-scale separation between the microscales of plasma physics and the macroscales of the environment. Hydrodynamical theories of CR transport achieve this by capturing the evolution of CR population in terms of statistical moments. In the well-established one-moment hydrodynamical model for CR transport, the dynamics of the entire CR population are described by a single statistical quantity such as the commonly used CR energy density. In this work, I develop a new hydrodynamical two-moment theory for CR transport that expands the well-established hydrodynamical model by including the CR energy flux as a second independent hydrodynamical quantity. I detail how this model accounts for the interaction between CRs and gyroresonant Alfvén waves. The small-scale magnetic fields associated with these Alfvén waves scatter CRs which fundamentally alters CR transport along large-scale magnetic field lines. This leads to the effects of CR streaming and diffusion which are both captured within the presented hydrodynamical theory. I use an Eddington-like approximation to close the hydrodynamical equations and investigate the accuracy of this closure-relation by comparing it to high-order approximations of CR transport. In addition, I develop a finite-volume scheme for the new hydrodynamical model and adapt it to the moving-mesh code Arepo. This scheme is applied using a simulation of a CR-driven galactic wind. I investigate how CRs launch the wind and perform a statistical analysis of CR transport properties inside the simulated circumgalactic medium (CGM). I show that the new hydrodynamical model can be used to explain the morphological appearance of a particular type of radio filamentary structures found inside the central molecular zone (CMZ). I argue that these harp-like features are synchrotron-radiating CRs which are injected into braided magnetic field lines by a point-like source such as a stellar wind of a massive star or a pulsar. Lastly, I present the finite-volume code Blinc that uses adaptive mesh refinement (AMR) techniques to perform simulations of radiation and magnetohydrodynamics (MHD). The mesh of Blinc is block-structured and represented in computer memory using a graph-based approach. I describe the implementation of the mesh graph and how a diffusion process is employed to achieve load balancing in parallel computing environments. Various test problems are used to verify the accuracy and robustness of the employed numerical algorithms. N2 - Kosmische Strahlung (CR) ist ein allgegenwärtiger und wichtiger Bestandteil astrophysikalischer Umgebungen wie des interstellaren Mediums (ISM) und des Intracluster-Mediums (ICM). Ihre plasmaphysikalischen Wechselwirkungen mit elektromagnetischen Feldern beeinflussen ihre Transporteigenschaften weitgehend. Effektive Modelle, die die Mikrophysik des CR-Transports einbeziehen, sind erforderlich, um die Auswirkungen von CRs auf die sie umgebenden makrophysikalischen Medien zu untersuchen. Die Entwicklung solcher Modelle ist eine Herausforderung, aufgrund der konzeptionellen, Längenskalen-, und Zeitskalen-Unterschiede zwischen den Mikroskalen der Plasmaphysik und den Makroskalen der Umgebung. Hydrodynamische Theorien des CR-Transports erreichen dies, indem sie die Entwicklung der CR-Population in Form von statistischen Momenten erfassen. Im etablierten hydrodynamischen Ein-Moment Modell für den CR-Transport wird die Dynamik der gesamten CR-Population durch eine einzige statistische Größe wie der häufig verwendeten CR-Energiedichte beschrieben. In dieser Arbeit entwickle ich eine neue hydrodynamische Zwei-Momenten Theorie für den CR-Transport, die das etablierte hydrodynamische Modell um den CR-Energiefluss als zweite unabhängige hydrodynamische Größe erweitert. Ich erläutere, wie dieses Modell die Wechselwirkung zwischen CRs und gyroresonanten Alfvén-Wellen berücksichtigt. Die mit diesen Alfvén-Wellen verbundenen kleinskaligen Magnetfelder streuen die CRs, was den CR-Transport entlang großskaligen Magnetfeldlinien grundlegend verändert. Dies führt zu den CR-Strömungs-und Diffusioneffekten, welche beide in der neu vorgestellten hydrodynamischen Theorie erfasst werden. Ich verwende eine adaptierte Eddington Näherung, um die hydrodynamischen Gleichungen zu schließen und untersuche die Genauigkeit dieser Näherung, indem ich sie mit Näherungen höherer Ordnung für den CR-Transport vergleiche. Darüber hinaus entwickle ich ein Finite-Volumen-Schema für das neue hydrodynamische Modell und passe es an den mitbewegten Gitter Code Arepo an. Dieses Schema wird mittels einer Simulation eines CR-getriebenen galaktischen Windes angewendet. Ich untersuche, wie CRs den Wind beschleunigen und führe eine statistische Analyse der CR-Transporteigenschaften innerhalb des simulierten zirkumgalaktischen Mediums (CGM) durch. Ich zeige, dass das neue hydrodynamische Modell das morphologische Erscheinungsbild eines neu-entdeckten bestimmten Typs von filamentartigen Radiostrukturen, welcher in der zentralen molekularen Zone (CMZ) auffindbar ist, erklären kann. Ich schlage vor, dass es sich bei diesen harfenartigen Strukturen um synchrotronstrahlende CRs handelt, die zuvor von einer punktförmigen Quelle wie dem stellaren Wind eines massereichen Sterns oder eines Pulsars in geflochtene Magnetfeldlinien injiziert wurden. Schließlich stelle ich den Finite-Volumen-Code Blinc vor, der adaptive Gitterverfeinerungstechniken (AMR) verwendet, um Simulationen von Strahlungs-und Magnetohydrodynamik (MHD) durchzuführen. Das Gitter von Blinc ist blockstrukturiert und wird im Computerspe-icher mittels eines graphbasierten Ansatzes dargestellt. Ich beschreibe die Implementierung des Gittergraphen und wie ein Diffusionsprozess eingesetzt wird, um einen Lastausgleich in parallelen Rechenumgebungen zu erreichen. Verschiedene Testprobleme werden verwendet, um die Genauigkeit und Robustheit der verwendeten numerischen Algorithmen zu überprüfen. KW - cosmic rays KW - hydrodynamics KW - radiative transfer KW - methods: analytical KW - methods: numerical KW - Galactic center KW - Non-thermal radiation sources KW - galaktisches Zentrum KW - Quellen nichtthermischer Strahlung KW - kosmische Strahlung KW - Hydrodynamik KW - Methoden: analytisch KW - Methoden: numerisch KW - Strahlungstransport Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-563843 ER - TY - GEN A1 - Xu, Pengbo A1 - Zhou, Tian A1 - Metzler, Ralf A1 - Deng, Weihua T1 - Stochastic harmonic trapping of a Lévy walk: transport and first-passage dynamics under soft resetting strategies T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - We introduce and study a Lévy walk (LW) model of particle spreading with a finite propagation speed combined with soft resets, stochastically occurring periods in which an harmonic external potential is switched on and forces the particle towards a specific position. Soft resets avoid instantaneous relocation of particles that in certain physical settings may be considered unphysical. Moreover, soft resets do not have a specific resetting point but lead the particle towards a resetting point by a restoring Hookean force. Depending on the exact choice for the LW waiting time density and the probability density of the periods when the harmonic potential is switched on, we demonstrate a rich emerging response behaviour including ballistic motion and superdiffusion. When the confinement periods of the soft-reset events are dominant, we observe a particle localisation with an associated non-equilibrium steady state. In this case the stationary particle probability density function turns out to acquire multimodal states. Our derivations are based on Markov chain ideas and LWs with multiple internal states, an approach that may be useful and flexible for the investigation of other generalised random walks with soft and hard resets. The spreading efficiency of soft-rest LWs is characterised by the first-passage time statistic. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1262 KW - diffusion KW - anomalous diffusion KW - stochastic resetting KW - Levy walks Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-560402 SN - 1866-8372 SP - 1 EP - 28 PB - Universitätsverlag Potsdam CY - Potsdam ER - TY - GEN A1 - Teichmann, Erik A1 - Lewandowski, Heather J. A1 - Alemani, Micol T1 - Investigating students’ views of experimental physics in German laboratory classes T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - There is a large variety of goals instructors have for laboratory courses, with different courses focusing on different subsets of goals. An often implicit, but crucial, goal is to develop students’ attitudes, views, and expectations about experimental physics to align with practicing experimental physicists. The assessment of laboratory courses upon this one dimension of learning has been intensively studied in U.S. institutions using the Colorado Learning Attitudes about Science Survey for Experimental Physics (E-CLASS). However, there is no such an instrument available to use in Germany, and the influence of laboratory courses on students views about the nature of experimental physics is still unexplored at German-speaking institutions. Motivated by the lack of an assessment tool to investigate this goal in laboratory courses at German-speaking institutions, we present a translated version of the E-CLASS adapted to the context at German-speaking institutions. We call the German version of the E-CLASS, the GE-CLASS. We describe the translation process and the creation of an automated web-based system for instructors to assess their laboratory courses. We also present first results using GE-CLASS obtained at the University of Potsdam. A first comparison between E-CLASS and GE-CLASS results shows clear differences between University of Potsdam and U.S. students’ views and beliefs about experimental physics. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1263 Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-560429 SN - 1866-8372 SP - 010135-1 EP - 010135-17 PB - Universitätsverlag Potsdam CY - Potsdam ER - TY - THES A1 - Schemenz, Victoria T1 - Correlations between osteocyte lacuno-canalicular network and material characteristics in bone adaptation and regeneration T1 - Korrelationen zwischen dem lakuno-kanalikulären Netzwerk der Osteozyten und Materialeigenschaften bei der Knochenanpassung und -regeneration N2 - The complex hierarchical structure of bone undergoes a lifelong remodeling process, where it adapts to mechanical needs. Hereby, bone resorption by osteoclasts and bone formation by osteoblasts have to be balanced to sustain a healthy and stable organ. Osteocytes orchestrate this interplay by sensing mechanical strains and translating them into biochemical signals. The osteocytes are located in lacunae and are connected to one another and other bone cells via cell processes through small channels, the canaliculi. Lacunae and canaliculi form a network (LCN) of extracellular spaces that is able to transport ions and enables cell-to-cell communication. Osteocytes might also contribute to mineral homeostasis by direct interactions with the surrounding matrix. If the LCN is acting as a transport system, this should be reflected in the mineralization pattern. The central hypothesis of this thesis is that osteocytes are actively changing their material environment. Characterization methods of material science are used to achieve the aim of detecting traces of this interaction between osteocytes and the extracellular matrix. First, healthy murine bones were characterized. The properties analyzed were then compared with three murine model systems: 1) a loading model, where a bone of the mouse was loaded during its life time; 2) a healing model, where a bone of the mouse was cut to induce a healing response; and 3) a disease model, where the Fbn1 gene is dysfunctional causing defects in the formation of the extracellular tissue. The measurement strategy included routines that make it possible to analyze the organization of the LCN and the material components (i.e., the organic collagen matrix and the mineral particles) in the same bone volumes and compare the spatial distribution of different data sets. The three-dimensional network architecture of the LCN is visualized by confocal laser scanning microscopy (CLSM) after rhodamine staining and is then subsequently quantified. The calcium content is determined via quantitative backscattered electron imaging (qBEI), while small- and wide-angle X-ray scattering (SAXS and WAXS) are employed to determine the thickness and length of local mineral particles. First, tibiae cortices of healthy mice were characterized to investigate how changes in LCN architecture can be attributed to interactions of osteocytes with the surrounding bone matrix. The tibial mid-shaft cross-sections showed two main regions, consisting of a band with unordered LCN surrounded by a region with ordered LCN. The unordered region is a remnant of early bone formation and exhibited short and thin mineral particles. The surrounding, more aligned bone showed ordered and dense LCN as well as thicker and longer mineral particles. The calcium content was unchanged between the two regions. In the mouse loading model, the left tibia underwent two weeks of mechanical stimulation, which results in increased bone formation and decreased resorption in skeletally mature mice. Here the specific research question addressed was how do bone material characteristics change at (re)modeling sites? The new bone formed in response to mechanical stimulation showed similar properties in terms of the mineral particles, like the ordered calcium region but lower calcium content compared to the right, non-loaded control bone of the same mice. There was a clear, recognizable border between mature and newly formed bone. Nevertheless, some canaliculi went through this border connecting the LCN of mature and newly formed bone. Additionally, the question should be answered whether the LCN topology and the bone matrix material properties adapt to loading. Although, mechanically stimulated bones did not show differences in calcium content compared to controls, different correlations were found between the local LCN density and the local Ca content depending on whether the bone was loaded or not. These results suggest that the LCN may serve as a mineral reservoir. For the healing model, the femurs of mice underwent an osteotomy, stabilized with an external fixator and were allowed to heal for 21 days. Thus, the spatial variations in the LCN topology with mineral properties within different tissue types and their interfaces, namely calcified cartilage, bony callus and cortex, could be simultaneously visualized and compared in this model. All tissue types showed structural differences across multiple length scales. Calcium content increased and became more homogeneous from calcified cartilage to bony callus to lamellar cortical bone. The degree of LCN organization increased as well, while the lacunae became smaller, as did the lacunar density between these different tissue types that make up the callus. In the calcified cartilage, the mineral particles were short and thin. The newly formed callus exhibited thicker mineral particles, which still had a low degree of orientation. While most of the callus had a woven-like structure, it also served as a scaffold for more lamellar tissue at the edges. The lamelar bone callus showed thinner mineral particles, but a higher degree of alignment in both, mineral particles and the LCN. The cortex showed the highest values for mineral length, thickness and degree of orientation. At the same time, the lacunae number density was 34% lower and the lacunar volume 40% smaller compared to bony callus. The transition zone between cortical and callus regions showed a continuous convergence of bone mineral properties and lacunae shape. Although only a few canaliculi connected callus and the cortical region, this indicates that communication between osteocytes of both tissues should be possible. The presented correlations between LCN architecture and mineral properties across tissue types may suggest that osteocytes have an active role in mineralization processes of healing. A mouse model for the disease marfan syndrome, which includes a genetic defect in the fibrillin-1 gene, was investigated. In humans, Marfan syndrome is characterized by a range of clinical symptoms such as long bone overgrowth, loose joints, reduced bone mineral density, compromised bone microarchitecture, and increased fracture rates. Thus, fibrillin-1 seems to play a role in the skeletal homeostasis. Therefore, the present work studied how marfan syndrome alters LCN architecture and the surrounding bone matrix. The mice with marfan syndrome showed longer tibiae than their healthy littermates from an age of seven weeks onwards. In contrast, the cortical development appeared retarded, which was observed across all measured characteristics, i. e. lower endocortical bone formation, looser and less organized lacuno-canalicular network, less collagen orientation, thinner and shorter mineral particles. In each of the three model systems, this study found that changes in the LCN architecture spatially correlated with bone matrix material parameters. While not knowing the exact mechanism, these results provide indications that osteocytes can actively manipulate a mineral reservoir located around the canaliculi to make a quickly accessible contribution to mineral homeostasis. However, this interaction is most likely not one-sided, but could be understood as an interplay between osteocytes and extra-cellular matrix, since the bone matrix contains biochemical signaling molecules (e.g. non-collagenous proteins) that can change osteocyte behavior. Bone (re)modeling can therefore not only be understood as a method for removing defects or adapting to external mechanical stimuli, but also for increasing the efficiency of possible osteocyte-mineral interactions during bone homeostasis. With these findings, it seems reasonable to consider osteocytes as a target for drug development related to bone diseases that cause changes in bone composition and mechanical properties. It will most likely require the combined effort of materials scientists, cell biologists, and molecular biologists to gain a deeper understanding of how bone cells respond to their material environment. N2 - Knochen haben eine komplexe hierarchische Struktur, die einen lebenslangen Umbauprozess durchläuft, bei dem der Knochen sich seinen mechanischen Anforderungen anpasst. Um ein gesundes und stabiles Organ zu erhalten müssen Knochenresorption (durch Osteoklasten) und Knochenbildung (durch Osteoblasten) ausgewogen sein. Osteozyten lenken dieses Wechselspiel, indem sie mechanische Belastungen wahrnehmen und sie in biochemische Signale übersetzen. Die Osteozyten sitzen in Lakunen und sind durch Kanälchen untereinander und mit anderen Knochenzellen über ein Netzwerk (LCN) verbunden, das in der Lage ist, Ionen zu transportieren und eine Kommunikation von Zelle zu Zelle zu ermöglichen. Außerdem vermutet man, dass Osteozyten auch durch direkte Wechselwirkungen mit der umgebenden Matrix zur Mineralhomöostase beitragen könnten. Im Mittelpunkt dieser Arbeit steht die Frage, ob Osteozyten ihre materielle Umgebung aktiv verändern können. Um Spuren dieser Wechselwirkung zwischen Osteozyten und der extrazellulären Matrix nachzuweisen, werden materialwissenschaftliche Charakterisierungsmethoden eingesetzt. Zunächst wurden gesunde Mäuseknochen charakterisiert. Die erworbenen Ergebnisse wurden dann mit drei murinen Modellsystemen verglichen: 1) einem Belastungsmodell; 2) ein Heilungsmodell und 3) ein Krankheitsmodell, bei dem das Fbn1-Gen dysfunktional ist und Defekte in der Bildung des extrazellulären Gewebes verursacht werden. Die Messstrategie umfasste Routinen, die es ermöglichen, die Organisation des LCN und der Materialkomponenten (d.h. die organische Kollagenmatrix und die mineralischen Partikel) in denselben Knochenvolumina zu analysieren und die räumliche Verteilung der verschiedenen Datensätze zu vergleichen. Die dreidimensionale Netzwerkarchitektur des LCN wird durch konfokale Laser-Scanning-Mikroskopie nach Rhodamin-Färbung gemessen und anschließend quantifiziert. Der Kalziumgehalt wird mittels quantitativer Rückstreuelektronenbildgebung bestimmt, während Klein- und Weitwinkel-Röntgenstreuung verwendet werden, um die Dicke und Länge der Mineralpartikel zu bestimmen. Zunächst wurden Querschnitte der Unterschenkel von gesunden Mäusen charakterisiert, um zu untersuchen, ob Veränderungen in der LCN-Architektur auf Wechselwirkungen von Osteozyten mit der umgebenden Knochenmatrix zurückgeführt werden können. Die Kortizes zeigten zwei Hauptregionen, ein Band mit ungeordneter LCN-Architektur, umgeben von einer Region mit geordneter LCN. Die ungeordnete Region ist ein Überbleibsel der frühen Knochenbildung und wies kurze und dünne Mineralpartikel auf. Der umgebende, stärker ausgerichtete Knochen zeigte ein geordnetes und dichtes LCN, sowie dickere und längere Mineralpartikel. Der Kalziumgehalt blieb bei beiden Regionen unverändert. Im Mausbelastungsmodell wurde das linke Schienbein zwei Wochen lang mechanisch stimuliert, was zu einer erhöhten Knochenbildung führt. Hier sollte die Forschungsfrage beantwortet werden, wie sich Knochenmaterialeigenschaften an (Re-)Modellierungsstellen aufgrund von Belastung ändern. Der, als Reaktion auf die mechanische Stimulation, gebildete neue Knochen zeigte ähnliche Eigenschaften in Bezug auf die Mineralpartikel, wie die geordnete Kortexregion. Es gab eine klar erkennbare Grenze zwischen reifem und neu gebildetem Knochen. Trotzdem gingen einige Kanälchen durch diese Grenze, die die LCN aus reifem und neu gebildetem Knochen verband. Für das Heilungsmodell wurden die Oberschenkel von Mäusen einer Osteotomie unterzogen (einer Operation, bei der durch einen Schnitt in der Diaphyse ein Bruch erzeugt wird). Danach konnte die Fraktur 21 Tage heilen. Dadurch konnten in diesem Modell gleichzeitig verkalkter Knorpel, knöcherner Kallus und Kortex untersucht werden. Dafür wurde die räumliche Verteilung der LCN-Topologie sowie die Mineraleigenschaften der verschiedenen Gewebetypen und ihrer Grenzflächen visualisiert und verglichen. Alle Gewebetypen zeigten strukturelle Unterschiede über mehrere Längenskalen hinweg. Der Kalziumgehalt nahm von kalzifiziertem Knorpel zu knöchernem Kallus zu lamellarem kortikalem Knochen zu und wurde homogener. Der Grad der LCN-Organisation nahm ebenfalls zu, während die Lakunen vom Kallus zum Kortexgewebe kleiner wurden, ebenso wie die Lakunendichte. Im verkalkten Knorpel waren die Mineralpartikel kurz und dünn. Der größte Teil des Kallus wies eine Geflechtsknochenstruktur auf und diente als Gerüst für lamellares Gewebe, das dünnere Mineralpartikel, aber einen höheren Grad an Ausrichtung sowohl in den Mineralpartikeln als auch im LCN aufwies. Der Kortex zeigte die höchsten Werte für Minerallänge, Dicke und Orientierungsgrad. Obwohl nur wenige Kanälchen den Kallus und kortikale Regionen verbinden, weist dies darauf hin, dass eine Kommunikation zwischen Osteozyten beider Gewebe möglich sein sollte. Es wurde auch ein Mausmodell für das Marfan-Syndrom untersucht, das einen Gendefekt im Fibrillin-1-Gen beinhaltet. Beim Menschen ist das Marfan-Syndrom durch eine Reihe klinischer Symptome gekennzeichnet, wie z. B. übermäßiges Wachstum der Gliedmaßen, überstreckbare Gelenke, verringerte Knochenmineraldichte, beeinträchtigte Knochenmikroarchitektur und erhöhte Frakturraten. Somit scheint Fibrillin-1 eine Rolle in der Skeletthomöostase zu spielen. Deswegen untersuchte die vorliegende Arbeit, ob und wie das Marfan-Syndrom die LCN-Architektur und die umgebende Knochenmatrix verändert. Die Mäuse mit Marfan-Syndrom zeigten bereits ab einem Alter von sieben Wochen längere Schienbeine als ihre gesunden Wurfgeschwister. Im Gegensatz dazu erschien die kortikale Entwicklung verzögert, was über alle gemessenen Merkmale hinweg beobachtet wurde, d.h. niedrigere endokortikale Knochenbildung, lockereres und weniger organisiertes LCN, geringerer Grad an Kollagenorientierung sowie ein Trend zu dünneren und kürzeren Mineralpartikel. In jedem der drei Modellsysteme fand diese Studie, dass Änderungen in der LCN-Architektur räumlich mit Parametern des Knochenmatrixmaterials korrelierten. Obwohl der genaue Mechanismus nicht bekannt ist, liefern diese Ergebnisse Hinweise darauf, dass Osteozyten ein Mineralreservoir aktiv manipulieren können. Dieses Reservoir befindet sich um die Kanälchen herum und dieser Prozess würde es ermöglichen, einen schnell zugänglichen Beitrag zur Mineralhomöostase zu leisten. Diese Interaktion ist jedoch höchstwahrscheinlich nicht einseitig, sondern könnte als Wechselspiel zwischen Osteozyten und extrazellulärer Matrix verstanden werden, da die Knochenmatrix biochemische Signalmoleküle enthält, die das Verhalten von Osteozyten verändern können. Knochen(re)modellierung kann daher nicht nur als Methode zur Defektbeseitigung oder Anpassung an äußere mechanische Reize verstanden werden, sondern auch zur Effizienzsteigerung möglicher Osteozyten-Mineral-Interaktionen während der Knochenhomöostase. Angesichts dieser Ergebnisse erscheint es sinnvoll, Osteozyten als Ziel für die Arzneimittelentwicklung im Zusammenhang mit Knochenerkrankungen in Betracht zu ziehen, die Veränderungen der Knochenzusammensetzung und deren mechanischen Eigenschaften verursachen. KW - bone KW - lacunae KW - mineralization KW - SAXS KW - lacuno-canalicular network KW - µCT KW - CLSM KW - konfokales Laser-Scanning-Mikroskop KW - Kleinwinkelröntgenstreuung KW - Knochen KW - Lakunen KW - lakuno-kanaliculäres Netzwerk KW - Mineralisierung KW - µCT Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-559593 ER - TY - THES A1 - Nayak, Abani Shankar T1 - Design, Characterization and On-sky Testing of an Integrated Optics Device for Stellar Interferometry: from Pupil Remappers to Discrete Beam Combiner T1 - Entwicklung, Charakterisierung und Erprobung einer integrierten, optischen Vorrichtung für die stellare Interferometrie: von Pupil Remappers zum diskreten Strahlkombinierer N2 - Stellar interferometry is the only method in observational astronomy for obtaining the highest resolution images of astronomical targets. This method is based on combining light from two or more separate telescopes to obtain the complex visibility that contains information about the brightness distribution of an astronomical source. The applications of stellar interferometry have made significant contributions in the exciting research areas of astronomy and astrophysics, including the precise measurement of stellar diameters, imaging of stellar surfaces, observations of circumstellar disks around young stellar objects, predictions of Einstein's General relativity at the galactic center, and the direct search for exoplanets to name a few. One important related technique is aperture masking interferometry, pioneered in the 1960s, which uses a mask with holes at the re-imaged pupil of the telescope, where the light from the holes is combined using the principle of stellar interferometry. While this can increase the resolution, it comes with a disadvantage. Due to the finite size of the holes, the majority of the starlight (typically > 80 %) is lost at the mask, thus limiting the signal-to-noise ratio (SNR) of the output images. This restriction of aperture masking only to the bright targets can be avoided using pupil remapping interferometry - a technique combining aperture masking interferometry and advances in photonic technologies using single-mode fibers. Due to the inherent spatial filtering properties, the single-mode fibers can be placed at the focal plane of the re-imaged pupil, allowing the utilization of the whole pupil of the telescope to produce a high-dynamic range along with high-resolution images. Thus, pupil remapping interferometry is one of the most promising application areas in the emerging field of astrophotonics. At the heart of an interferometric facility, a beam combiner exists whose primary function is to combine light to obtain high-contrast fringes. A beam combiner can be as simple as a beam splitter or an anamorphic lens to combine light from 2 apertures (or telescopes) or as complex as a cascade of beam splitters and lenses to combine light for > 2 apertures. However, with the field of astrophotonics, interferometric facilities across the globe are increasingly employing some form of photonics technologies by using single-mode fibers or integrated optics (IO) chips as an efficient way to combine light from several apertures. The state-of-the-art instrument - GRAVITY at the very large telescope interferometer (VLTI) facility uses an IO-based beam combiner device reaching visibilities accuracy of better than < 0.25 %, which is roughly 50× as precise as a few decades back. Therefore, in the context of IO-based components for applications in stellar interferometry, this Thesis describes the work towards the development of a 3-dimensional (3-D) IO device - a monolithic astrophotonics component containing both the pupil remappers and a discrete beam combiner (DBC). In this work, the pupil remappers are 3-D single-mode waveguides in a glass substrate collecting light from the re-imaged pupil of the telescope and feeding the light to a DBC, where the combination takes place. The DBC is a lattice of 3-D single-mode waveguides, which interact through evanescent coupling. By observing the output power of single-mode waveguides of the DBC, the visibilities are retrieved by using a calibrated transfer matrix ({U}) of the device. The feasibility of the DBC in retrieving the visibilities theoretically and experimentally had already been studied in the literature but was only limited to laboratory tests with monochromatic light sources. Thus, a part of this work extends these studies by investigating the response of a 4-input DBC to a broad-band light source. Hence, the objectives of this Thesis are the following: 1) Design an IO device for broad-band light operation such that accurate and precise visibilities could be retrieved experimentally at astronomical H-band (1.5-1.65 μm), and 2) Validation of the DBC as a possible beam combination scheme for future interferometric facilities through on-sky testing at the William Herschel Telescope (WHT). This work consisted of designing three different 3-D IO devices. One of the popular methods for fabricating 3-D photonic components in a glass substrate is ultra-fast laser inscription (ULI). Thus, manufacturing of the designed devices was outsourced to Politecnico di Milano as part of an iterative fabrication process using their state-of-the-art ULI facility. The devices were then characterized using a 2-beam Michelson interferometric setup obtaining both the monochromatic and polychromatic visibilities. The retrieved visibilities for all devices were in good agreement as predicted by the simulation results of a DBC, which confirms both the repeatability of the ULI process and the stability of the Michelson setup, thus fulfilling the first objective. The best-performing device was then selected for the pupil-remapping of the WHT using a different optical setup consisting of a deformable mirror and a microlens array. The device successfully collected stellar photons from Vega and Altair. The visibilities were retrieved using a previously calibrated {U} but showed significant deviations from the expected results. Based on the analysis of comparable simulations, it was found that such deviations were primarily caused by the limited SNR of the stellar observations, thus constituting a first step towards the fulfillment of the second objective. N2 - Das Auflösungsvermögen eines Teleskops, also die Fähigkeit, zwei Punktquellen voneinander zu trennen, wird durch ~λ/A bestimmt, wobei λ die Wellenlänge des Lichts und A der Durchmesser des Hauptspiegels des Teleskops ist. Wenn bei einem gegebenen Teleskop zwei punktförmige Objekte durch <λ/A getrennt sind, kann kein eindeutiges Bild dieser Objekte erzeugt werden und das Teleskopsystem ist somit beugungsbegrenzt. Kombiniert man jedoch das Licht von zwei Teleskopen, die durch einen Abstand B voneinander getrennt sind, erhöht sich die Auflösung um einen Faktor ~2B/A und überwindet damit die Beugungsgrenze eines einzelnen Teleskops. Daher wird bei der stellaren Interferometrie - deren Konzept von Michelson in den 1920er Jahren entwickelte wurde - Licht von zwei oder mehr Teleskopen kombiniert, um hochauflösende Bilder von astronomischen Objekten zu erzeugen. Die Anwendung der stellaren Interferometrie hat wichtige Beiträge zur Astronomie und Astrophysik geleistet, von der Untersuchung grundlegender Eigenschaften von Sternen bis hin zur Abbildung extragalaktischer Objekte. Das Herzstück einer interferometrischen Anlage ist ein Strahlkombinierer, der das Licht von mehreren Teleskopen (oder Aperturen) kombiniert, um kontrastreiche Interferenzstreifen zu erhalten. In der Anfangszeit konnte ein Strahlkombinierer ganz einfach sein, wie z.B. ein Strahlteiler oder eine anamorphotische Linse für die Kombination des Lichts von 2 Aperturen (oder Teleskopen), oder sehr komplex, wie z.B. eine Kaskade von Strahlteilern und Linsen, um Licht für >2 Aperturen zu kombinieren. Mit dem aufkommenden Gebiet der Astrophotonik setzen interferometrische Einrichtungen jedoch vermehrt photonische Technologien ein, indem Einzelmoden-Fasern oder ein Chip mit integrierter Optik (IO) verwendet werden, um Licht aus mehreren Aperturen effizient zu kombinieren. Bei der sogenannten pupil remapping interferometry Technik (dt etwa: neugeordnete Pupille) wird beispielsweise Licht mit mehreren Einzelmoden-Wellenleitern auf einem IO-Chip gesammelt. Diese Komponenten werden an der Position im Strahlengang eingefügt, an der die Pupille des Teleskops abgebildet wird. Anschließend wird das Licht aus den Fasern oder Wellenleitern durch eine Freistrahloptik oder IO-basierte Komponente interferometrisch überlagert, um Bilder sowohl mit hohem Kontrast als auch hoher Auflösung zu erzeugen. Im Kontext von IO-basierten Komponenten für stellare Interferometrie ist das Ziel dieser Arbeit die Entwicklung eines 3-dimensionalen (3-D) IO-Bauteils - eine monolithische Astrophotonik-Komponente, die sowohl die Pupil Remapper als auch einen discrete beam combiner (DBC) (dt: Diskreten Strahlkombinierer ) enthält. In dieser Arbeit sind die Pupil Remapper 3-D Einzelmoden-Wellenleiter, die in ein Glassubstrat eingeschrieben sind und das Licht von der abgebildeten Pupille des Teleskops sammeln und zu einem DBC leiten, in dem die Kombination stattfindet. Der DBC ist eine 3-D Gitteranordnung von Einzelmoden-Wellenleitern, die durch evaneszente Kopplung miteinander wechselwirken. Durch Beobachtung der Ausgangsleistung der Einzelmoden-Wellenleiter des DBCs werden mit Hilfe einer kalibrierten Übertragungsmatrix des Systems die Visibilities (dt: Kontrastwerte) ermittelt, die für eine hochauflösende Bildgebung erforderlich sind. Die Eignung von DBCs für die Ermittlung der Kontrastwerte wurde sowohl theoretisch als auch experimentell untersucht und in Fachzeitschriften publiziert. Bisher beschränkten sich diese Untersuchungen jedoch auf Labortests mit monochromatischen Lichtquellen. Die Ziele dieser Arbeit sind daher die folgenden: 1) Die Entwicklung eines IO-Bauteils für die Anwendung mit breitbandigem Licht, so dass Kontrastwerte im astronomischen H-Band (1,5-1,65 μm) ermittelt werden können, 2) experimentelle Demonstration genauer und präziser Kontrastwerte mit dem IO-Bauteil, welches mit der Femtosekundenlaser-Bearbeitungsmethode hergestellt wird, und 3) Validierung des DBCs als mögliches Konzept für die Strahlkombination für zukünftige interferometrische Anlagen durch On-Sky-Tests am William Herschel Teleskop. KW - stellar interferometry KW - ultra-fast laser inscription technology KW - astrophotonics KW - discrete beam cominer KW - pupil remappers KW - visibility KW - integrated optics KW - William Herschel telescope KW - on-sky tests KW - stellare Interferometrie KW - Femtosekundenlaser-Bearbeitungsmethode KW - Astrophotonik KW - diskreter Strahlkombinierer KW - Pupil Remapper KW - Kontrastwerte KW - integrierte Optik KW - William Herschel Teleskop KW - On-Sky-Tests Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-558743 ER - TY - GEN A1 - Sarabadani, Jalal A1 - Metzler, Ralf A1 - Ala-Nissila, Tapio T1 - Driven polymer translocation into a channel: Isoflux tension propagation theory and Langevin dynamics simulations T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Isoflux tension propagation (IFTP) theory and Langevin dynamics (LD) simulations are employed to study the dynamics of channel-driven polymer translocation in which a polymer translocates into a narrow channel and the monomers in the channel experience a driving force fc. In the high driving force limit, regardless of the channel width, IFTP theory predicts τ ∝ f βc for the translocation time, where β = −1 is the force scaling exponent. Moreover, LD data show that for a very narrow channel fitting only a single file of monomers, the entropic force due to the subchain inside the channel does not play a significant role in the translocation dynamics and the force exponent β = −1 regardless of the force magnitude. As the channel width increases the number of possible spatial configurations of the subchain inside the channel becomes significant and the resulting entropic force causes the force exponent to drop below unity. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1292 Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-574387 SN - 1866-8372 IS - 1292 SP - 033003-1 EP - 033003-14 ER - TY - GEN A1 - Smirnov, Lev A. A1 - Bolotov, Maxim A1 - Bolotov, Dmitri A1 - Osipov, Grigory V. A1 - Pikovsky, Arkady T1 - Finite-density-induced motility and turbulence of chimera solitons T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - We consider a one-dimensional oscillatory medium with a coupling through a diffusive linear field. In the limit of fast diffusion this setup reduces to the classical Kuramoto–Battogtokh model. We demonstrate that for a finite diffusion stable chimera solitons, namely localized synchronous domain in an infinite asynchronous environment, are possible. The solitons are stable also for finite density of oscillators, but in this case they sway with a nearly constant speed. This finite-density-induced motility disappears in the continuum limit, as the velocity of the solitons is inverse proportional to the density. A long-wave instability of the homogeneous asynchronous state causes soliton turbulence, which appears as a sequence of soliton mergings and creations. As the instability of the asynchronous state becomes stronger, this turbulence develops into a spatio-temporal intermittency. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1291 KW - chimera KW - soliton KW - finite-size effects Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-574281 SN - 1866-8372 IS - 1291 ER - TY - GEN A1 - Vilk, Ohad A1 - Aghion, Erez A1 - Avgar, Tal A1 - Beta, Carsten A1 - Nagel, Oliver A1 - Sabri, Adal A1 - Sarfati, Raphael A1 - Schwartz, Daniel K. A1 - Weiß, Matthias A1 - Krapf, Diego A1 - Nathan, Ran A1 - Metzler, Ralf A1 - Assaf, Michael T1 - Unravelling the origins of anomalous diffusion BT - from molecules to migrating storks T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Anomalous diffusion or, more generally, anomalous transport, with nonlinear dependence of the mean-squared displacement on the measurement time, is ubiquitous in nature. It has been observed in processes ranging from microscopic movement of molecules to macroscopic, large-scale paths of migrating birds. Using data from multiple empirical systems, spanning 12 orders of magnitude in length and 8 orders of magnitude in time, we employ a method to detect the individual underlying origins of anomalous diffusion and transport in the data. This method decomposes anomalous transport into three primary effects: long-range correlations (“Joseph effect”), fat-tailed probability density of increments (“Noah effect”), and nonstationarity (“Moses effect”). We show that such a decomposition of real-life data allows us to infer nontrivial behavioral predictions and to resolve open questions in the fields of single-particle tracking in living cells and movement ecology. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1303 Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-577643 SN - 1866-8372 IS - 1303 ER - TY - JOUR A1 - Mau, Erik Thomas Klaus A1 - Rosenblum, Michael T1 - Optimizing charge-balanced pulse stimulation for desynchronization JF - Chaos : an interdisciplinary journal of nonlinear science N2 - Collective synchronization in a large population of self-sustained units appears both in natural and engineered systems. Sometimes this effect is in demand, while in some cases, it is undesirable, which calls for control techniques. In this paper, we focus on pulsatile control, with the goal to either increase or decrease the level of synchrony. We quantify this level by the entropy of the phase distribution. Motivated by possible applications in neuroscience, we consider pulses of a realistic shape. Exploiting the noisy Kuramoto-Winfree model, we search for the optimal pulse profile and the optimal stimulation phase. For this purpose, we derive an expression for the change of the phase distribution entropy due to the stimulus. We relate this change to the properties of individual units characterized by generally different natural frequencies and phase response curves and the population's state. We verify the general result by analyzing a two-frequency population model and demonstrating a good agreement of the theory and numerical simulations. Y1 - 2022 U6 - https://doi.org/10.1063/5.0070036 SN - 1054-1500 SN - 1089-7682 VL - 32 IS - 1 PB - AIP CY - Melville ER - TY - JOUR A1 - Moreno, Eduardo A1 - Großmann, Robert A1 - Beta, Carsten A1 - Alonso, Sergio T1 - From single to collective motion of social amoebae BT - a computational study of interacting cells JF - Frontiers in physics N2 - The coupling of the internal mechanisms of cell polarization to cell shape deformations and subsequent cell crawling poses many interdisciplinary scientific challenges. Several mathematical approaches have been proposed to model the coupling of both processes, where one of the most successful methods relies on a phase field that encodes the morphology of the cell, together with the integration of partial differential equations that account for the polarization mechanism inside the cell domain as defined by the phase field. This approach has been previously employed to model the motion of single cells of the social amoeba Dictyostelium discoideum, a widely used model organism to study actin-driven motility and chemotaxis of eukaryotic cells. Besides single cell motility, Dictyostelium discoideum is also well-known for its collective behavior. Here, we extend the previously introduced model for single cell motility to describe the collective motion of large populations of interacting amoebae by including repulsive interactions between the cells. We performed numerical simulations of this model, first characterizing the motion of single cells in terms of their polarity and velocity vectors. We then systematically studied the collisions between two cells that provided the basic interaction scenarios also observed in larger ensembles of interacting amoebae. Finally, the relevance of the cell density was analyzed, revealing a systematic decrease of the motility with density, associated with the formation of transient cell clusters that emerge in this system even though our model does not include any attractive interactions between cells. This model is a prototypical active matter system for the investigation of the emergent collective dynamics of deformable, self-driven cells with a highly complex, nonlinear coupling of cell shape deformations, self-propulsion and repulsive cell-cell interactions. Understanding these self-organization processes of cells like their autonomous aggregation is of high relevance as collective amoeboid motility is part of wound healing, embryonic morphogenesis or pathological processes like the spreading of metastatic cancer cells. KW - cell motility KW - cell polarity KW - reaction-diffusion models KW - cell-cell KW - interactions KW - phase field model KW - collective motion KW - active matter Y1 - 2022 U6 - https://doi.org/10.3389/fphy.2021.750187 SN - 2296-424X VL - 9 PB - Frontiers Media CY - Lausanne ER - TY - JOUR A1 - Deb, Marwan A1 - Popova, Elena A1 - Jaffrès, Henri-Yves A1 - Keller, Niels A1 - Bargheer, Matias T1 - Controlling high-frequency spin-wave dynamics using double-pulse laser excitation JF - Physical review applied N2 - Manipulating spin waves is highly required for the development of innovative data transport and processing technologies. Recently, the possibility of triggering high-frequency standing spin waves in magnetic insulators using femtosecond laser pulses was discovered, raising the question about how one can manipulate their dynamics. Here we explore this question by investigating the ultrafast magnetiza-tion and spin-wave dynamics induced by double-pulse laser excitation. We demonstrate a suppression or enhancement of the amplitudes of the standing spin waves by precisely tuning the time delay between the two pulses. The results can be understood as the constructive or destructive interference of the spin waves induced by the first and second laser pulses. Our findings open exciting perspectives towards generating single-mode standing spin waves that combine high frequency with large amplitude and low magnetic damping. Y1 - 2022 U6 - https://doi.org/10.1103/PhysRevApplied.18.044001 SN - 2331-7019 VL - 18 IS - 4 PB - American Physical Society CY - College Park ER - TY - THES A1 - Büchner, Robby T1 - Understanding local electronic structure variations in bio-inspired aromatic molecules T1 - Erkenntnisse über lokale Variationen der elektronischen Struktur in biologisch inspirierten aromatischen Molekülen N2 - In this thesis, the dependencies of charge localization and itinerance in two classes of aromatic molecules are accessed: pyridones and porphyrins. The focus lies on the effects of isomerism, complexation, solvation, and optical excitation, which are concomitant with different crucial biological applications of specific members of these groups of compounds. Several porphyrins play key roles in the metabolism of plants and animals. The nucleobases, which store the genetic information in the DNA and RNA are pyridone derivatives. Additionally, a number of vitamins are based on these two groups of substances. This thesis aims to answer the question of how the electronic structure of these classes of molecules is modified, enabling the versatile natural functionality. The resulting insights into the effect of constitutional and external factors are expected to facilitate the design of new processes for medicine, light-harvesting, catalysis, and environmental remediation. The common denominator of pyridones and porphyrins is their aromatic character. As aromaticity was an early-on topic in chemical physics, the overview of relevant theoretical models in this work also mirrors the development of this scientific field in the 20th century. The spectroscopic investigation of these compounds has long been centered on their global, optical transition between frontier orbitals. The utilization and advancement of X-ray spectroscopic methods characterizing the local electronic structure of molecular samples form the core of this thesis. The element selectivity of the near-edge X-ray absorption fine structure (NEXAFS) is employed to probe the unoccupied density of states at the nitrogen site, which is key for the chemical reactivity of pyridones and porphyrins. The results contribute to the growing database of NEXAFS features and their interpretation, e.g., by advancing the debate on the porphyrin N K-edge through systematic experimental and theoretical arguments. Further, a state-of-the-art laser pump – NEXAFS probe scheme is used to characterize the relaxation pathway of a photoexcited porphyrin on the atomic level. Resonant inelastic X-ray scattering (RIXS) provides complementary results by accessing the highest occupied valence levels including symmetry information. It is shown that RIXS is an effective experimental tool to gain detailed information on charge densities of individual species in tautomeric mixtures. Additionally, the hRIXS and METRIXS high-resolution RIXS spectrometers, which have been in part commissioned in the course of this thesis, will gain access to the ultra-fast and thermal chemistry of pyridones, porphyrins, and many other compounds. With respect to both classes of bio-inspired aromatic molecules, this thesis establishes that even though pyridones and porphyrins differ largely by their optical absorption bands and hydrogen bonding abilities, they all share a global stabilization of local constitutional changes and relevant external perturbation. It is because of this wide-ranging response that pyridones and porphyrins can be applied in a manifold of biological and technical processes. N2 - In dieser Arbeit werden die Abhängigkeiten von Ladungslokalisierung und -wanderung in zwei Klassen von aromatischen Molekülen untersucht: Pyridone und Porphyrine. Der Schwerpunkt liegt auf den Auswirkungen von Isomerie, Komplexierung, Lösung (in Wasser) und optischer Anregung, die mit verschiedenen entscheidenden biologischen Anwendungen spezifischer Mitglieder dieser Gruppen von Verbindungen einhergehen. Mehrere Porphyrine spielen eine Schlüsselrolle im Stoffwechsel von Pflanzen und Tieren. Die Nukleobasen, die die genetische Information in der DNA und RNA speichern, sind Pyridonderivate. Auch mehrere Vitamine basieren auf diesen beiden Stoffgruppen. Ziel dieser Arbeit ist es, die Frage zu beantworten, wie die elektronische Struktur dieser Molekülklassen modifiziert wird, sodass die vielfältigen Funktionen in der Natur ermöglicht werden. Die sich daraus ergebenden Erkenntnisse über die Wirkung konstitutioneller und externer Einflussfaktoren ermöglichen die Entwicklung neuer Verfahren in der Medizin, Katalyse, Solar- und Umwelttechnik. Die Gemeinsamkeit von Pyridonen und Porphyrinen ist ihr aromatischer Charakter. Da Aromatizität von Beginn der chemischen Physik an thematisiert wurde, spiegelt der Überblick relevanter theoretischer Modelle in dieser Arbeit auch die Entwicklung dieses Wissenschaftsgebiets im 20. Jahrhundert wieder. Die spektroskopische Untersuchung dieser Verbindungen konzentrierte sich lange Zeit auf die globalen, optischen Übergänge zwischen den Grenzorbitalen. Die Anwendung und Weiterentwicklung röntgenspektroskopischer Methoden zur Charakterisierung der lokalen elektronischen Struktur von molekularen Proben bilden den Kern dieser Arbeit. Die Elementselektivität der Röntgen-Nahkanten-Absorptions-Spektroskopie (NEXAFS) wird genutzt, um die unbesetzte Zustandsdichte an den Stickstoffatomen zu untersuchen, welche für die chemische Reaktivität von Pyridonen und Porphyrinen verantwortlich sind. Die Ergebnisse tragen zum wachsenden Bestand von NEXAFS-Spektren und ihrer Interpretation bei, z.B. indem sie die Debatte über die N K-Kante von Porphyrinen durch systematische experimentelle und theoretische Argumente voranbringen. Zudem wird ein modernes Laser-Pump – NEXAFS-Probe System verwendet, um den Relaxationsprozess eines photoangeregten Porphyrins auf atomarer Ebene zu charakterisieren. Die resonante inelastische Röntgenstreuung (RIXS) liefert komplementäre Ergebnisse, indem sie die höchsten besetzten Valenzniveaus einschließlich Symmetrieinformationen zugänglich macht. Es wird gezeigt, dass RIXS eine effektive experimentelle Methode ist, um detaillierte Informationen über die Ladungsdichten einzelner Tautomere in einem Gemisch zu erhalten. Zudem werden es die hochauflösenden RIXS-Spektrometer hRIXS und METRIXS, die im Rahmen dieser Arbeit mit in Betrieb genommen wurden, erlauben, Informationen zur ultraschnellen und thermischen Chemie von Pyridonen, Porphyrinen und vielen anderen Verbindungen zu gewinnen. Im Hinblick auf beide Klassen biologisch inspirierter, aromatischer Moleküle wird in dieser Arbeit gezeigt, dass sich Pyridone und Porphyrine zwar durch ihre optischen Absorptionsbanden und ihre Fähigkeit zu Wasserstoffbrückenbindungen unterscheiden, aber alle Verbindungen eine globale Stabilisierung lokaler Konstitutionsänderungen und relevanter äußerer Einflüsse aufweisen. Aufgrund dieser weitreichenden Anpassung können Pyridone und Porphyrine in einer Vielzahl von biologischen und technischen Prozessen eingesetzt werden. KW - NEXAFS KW - RIXS KW - X-ray spectroscopy KW - Aromaticity KW - Porphyrins KW - Pyridones KW - Röntgenspektroskopie KW - Aromatizität KW - Porphyrine KW - Pyridone KW - NEXAFS KW - RIXS Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-553192 ER - TY - JOUR A1 - Schaffenroth, Veronika A1 - Pelisoli, Ingrid A1 - Barlow, Brad N. A1 - Geier, Stephan A1 - Kupfer, Thomas T1 - Hot subdwarfs in close binaries observed from space I. BT - orbital, atmospheric, and absolute parameters and the nature of their companions JF - Astronomy and astrophysics : an international weekly journal N2 - Context: About a third of the hot subdwarfs of spectral type B (sdBs), which are mostly core-helium-burning objects on the extreme horizontal branch, are found in close binaries with cool, low-mass stellar, substellar, or white dwarf companions. They can show light variations due to di fferent phenomena. Aims: Many hot subdwarfs now have space-based light curves with a high signal-to-noise ratio available. We used light curves from the Transiting Exoplanet Survey Satellite and the K2 space mission to look for more sdB binaries. Their light curves can be used to study the hot subdwarf primaries and their companions, and obtained orbital, atmospheric, and absolute parameters for those systems, when combined with other analysis methods. Methods: By classifying the light variations and combining these with the fit of the spectral energy distribution, the distance derived by the parallaxes obtained by Gaia, and the atmospheric parameters, mainly from the literature, we could derive the nature of the primaries and secondaries in 122 (75%) of the known sdB binaries and 82 newly found reflection e ffect systems. We derived absolute masses, radii, and luminosities for a total of 39 hot subdwarfs with cool, low-mass companions, as well 29 known and newly found sdBs with white dwarf companions. Results: The mass distribution of hot subdwarfs with cool, low-mass stellar and substellar companions, di ffers from those with white dwarf companions, implying they come from di fferent populations. By comparing the period and minimum companion mass distributions, we find that the reflection e ffect systems all have M dwarf or brown dwarf companions, and that there seem to be several di fferent populations of hot subdwarfs with white dwarf binaries - one with white dwarf minimum masses around 0.4 M-circle dot, one with longer periods and minimum companion masses up to 0.6 M-circle dot, and at the shortest period, another with white dwarf minimum masses around 0.8 M-circle dot. We also derive the first orbital period distribution for hot subdwarfs with cool, low-mass stellar or substellar systems selected from light variations instead of radial velocity variations. It shows a narrower period distribution, from 1.5 h to 35 h, compared to the distribution of hot subdwarfs with white dwarfs, which ranges from 1 h to 30 days. These period distributions can be used to constrain the previous common-envelope phase. KW - binaries: close KW - subdwarfs KW - white dwarfs KW - stars: late-type KW - stars: KW - horizontal-branch KW - stars: fundamental parameters Y1 - 2022 U6 - https://doi.org/10.1051/0004-6361/202244214 SN - 0004-6361 SN - 1432-0746 VL - 666 PB - EDP Sciences CY - Les Ulis ER - TY - THES A1 - Foster, Mary Grace T1 - X-Ray studies of exoplanet systems N2 - X-rays are integral to furthering our knowledge of exoplanetary systems. In this work we discuss the use of X-ray observations to understand star-planet interac- tions, mass-loss rates of an exoplanet’s atmosphere and the study of an exoplanet’s atmospheric components using future X-ray spectroscopy. The low-mass star GJ 1151 was reported to display variable low-frequency radio emission, which is an indication of coronal star-planet interactions with an unseen exoplanet. In chapter 5 we report the first X-ray detection of GJ 1151’s corona based on XMM-Newton data. Averaged over the observation, we detect the star with a low coronal temperature of 1.6 MK and an X-ray luminosity of LX = 5.5 × 1026 erg/s. This is compatible with the coronal assumptions for a sub-Alfvénic star- planet interaction origin of the observed radio signals from this star. In chapter 6, we aim to characterise the high-energy environment of known ex- oplanets and estimate their mass-loss rates. This work is based on the soft X-ray instrument on board the Spectrum Roentgen Gamma (SRG) mission, eROSITA, along with archival data from ROSAT, XMM-Newton, and Chandra. We use these four X-ray source catalogues to derive X-ray luminosities of exoplanet host stars in the 0.2-2 keV energy band. A catalogue of the mass-loss rates of 287 exoplan- ets is presented, with 96 of these planets characterised for the first time using new eROSITA detections. Of these first time detections, 14 are of transiting exoplanets that undergo irradiation from their host stars that is of a level known to cause ob- servable evaporation signals in other systems, making them suitable for follow-up observations. In the next generation of space observatories, X-ray transmission spectroscopy of an exoplanet’s atmosphere will be possible, allowing for a detailed look into the atmospheric composition of these planets. In chapter 7, we model sample spectra using a toy model of an exoplanetary atmosphere to predict what exoplanet transit observations with future X-ray missions such as Athena will look like. We then estimate the observable X-ray transmission spectrum for a typical Hot Jupiter-type exoplanet, giving us insights into the advances in X-ray observations of exoplanets in the decades to come. N2 - Röntgenstrahlen sind ein wesentlicher Bestandteil, um unser Wissen über extrasolare Planetensysteme zu vertiefen und zu erweitern. In dieser Arbeit erörtern wir den Einsatz von Röntgenbeobachtungen zum Verständnis von Stern-Planeten-Interaktionen, der Abschätzung von Massenverlustraten von Exoplanetenatmosphären und die Untersuchung der atmosphärischen Komponenten eines Exoplaneten mithilfe zukünftiger Röntgenspektroskopie. Beobachtungen des massearmen Sterns GJ 1151 deuten auf eine variable Emission niederfrequenter Radiostrahlung hin, was als Indiz für koronale Stern-Planeten-Wechselwirkungen mit einem unsichtbaren Exoplaneten angesehen wird. In Kapitel 5 berichten wir über den ersten Röntgennachweis der Korona von GJ 1151, basierend auf XMM-Newton Daten. Über die gesamte Beobachtungsdauer gemittelt, weisen wir den Stern mit einer niedrigen koronalen Temperatur von 1,6 MK und einer Röntgenluminosität von LX = 5, 5 ◊ 1026 erg/s nach. Dieser Nachweis im Röntgenlicht ist kompatibel mit der Annahme, dass sub-Alfvénische Wechselwirkungen zwischen stellarer Corona und Exoplanet die Ursache für die beobachteten Radiosignale des Sterns sind. Kapitel 6 zielt darauf ab, die hochenergetische Umgebung bekannter Exoplaneten zu charakterisieren und die Massenverlustraten der Planetenatmosphären abzuschätzen. Diese Arbeit basiert auf neu gewonnenen Daten des Instruments für weiche Röntgenstrahlung an Bord der Spectrum Roentgen Gamma (SRG) Mission, eROSITA, und wird komplementiert von Archivdaten von ROSAT, XMM-Newton und Chandra. Mithilfe dieser vier Röntgenquellenkataloge vermessen wir die Röntgenhelligkeit der Zentralsterne von bekannten Exoplanetensytemen im Energiebereich von 0,2-2 keV. Die Ergebnisse sind zusammen mit den errechneten Massenverlustraten von 287 Exoplaneten in einem Katalog zusammengefasst, darunter 96 Planeten, die zum ersten Mal durch neue eROSITA-Nachweise charakterisiert wurden. Bei 14 dieser Erstnachweise handelt es sich um transitierende Exoplaneten, die von ihrem Heimatstern so stark bestrahlt werden, dass beobachtbare Signale, ausgelöst durch die Verdampfung ihrer Atmosphäre, zu erwarten sind. Speziell diese Systeme eignen sich besonders für Folgebeobachtungen. Mit der nächsten Generation von Weltraumobservatorien wird die Röntgentransmissionsspektroskopie von extrasolaren Planetenatmosphären möglich sein, was nie dagewesene Details über die atmosphärische Zusammensetzung dieser Planeten ans Licht bringen wird. In Kapitel 7 modellieren wir Transmissionsspektren mithilfe eines vereinfachten Modells einer Exoplanetenatmosphäre um vorherzusagen, wie Transitbeobachtungen von Exoplaneten mit zukünftigen Röntgenmissionen wie Athena aussehen werden. Wir schätzen dann das beobachtbare Röntgentransmissionsspektrum für einen typischen Exoplaneten vom Typ Hot Jupiter ab, was uns einen Einblick in die zu erwartenden Fortschritte bei der Röntgenbeobachtung von Exoplaneten in den kommenden Jahrzehnten gibt. KW - exoplanets KW - x-rays KW - stellar physics KW - Exoplaneten KW - Röntgenstrahlen KW - stellare Physik Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-562152 PB - xiii, 92 ER - TY - JOUR A1 - Kranjc Horvat, Anja A1 - Wiener, Jeff A1 - Schmeling, Sascha A1 - Borowski, Andreas T1 - Learning goals of professional development programs at science research institutions BT - a Delphi study with different stakeholder groups JF - Journal of science teacher education : the official journal of the Association for the Education of Teachers in Science N2 - Effective professional development programs (PDPs) rely on well-defined goals. However, recent studies on PDPs have not explored the goals from a multi-stakeholder perspective. This study identifies the most important learning goals of PDPs at science research institutions as perceived by four groups of stakeholders, namely teachers, education researchers, government representatives, and research scientists. Altogether, over 100 stakeholders from 42 countries involved in PDPs at science research institutions in Europe and North America participated in a three-round Delphi study. In the first round, the stakeholders provided their opinions on what they thought the learning goals of PDPs should be through an open-ended questionnaire. In the second and third rounds, the stakeholders assessed the importance of the learning goals that emerged from the first round by rating and ranking them, respectively. The outcome of the study is a hierarchical list of the ten most important learning goals of PDPs at particle physics laboratories. The stakeholders identified enhancing teachers' knowledge of scientific concepts and models and enhancing their knowledge of the curricula as the most important learning goals. Furthermore, the results show strong agreement between all the stakeholder groups regarding the defined learning goals. Indeed, all groups ranked the learning goals by their perceived importance almost identically. These outcomes could help policymakers establish more specific policies for PDPs. Additionally, they provide PDP practitioners at science research institutions with a solid base for future research and planning endeavors. KW - Teacher professional development KW - Delphi study KW - multi-stakeholder KW - analysis KW - pedagogical content knowledge Y1 - 2021 U6 - https://doi.org/10.1080/1046560X.2021.1905330 SN - 1046-560X SN - 1573-1847 VL - 33 IS - 1 SP - 32 EP - 54 PB - Routledge, Taylor & Francis Group CY - Abingdon ER - TY - JOUR A1 - Lewenstein, Maciej A1 - Cirauqui, David A1 - Angel Garcia-March, Miguel A1 - Corominas, Guillem Guigo A1 - Grzybowski, Przemyslaw A1 - Saavedra, Jose R. M. A1 - Wilkens, Martin A1 - Wehr, Jan T1 - Haake-Lewenstein-Wilkens approach to spin-glasses revisited JF - Journal of physics : A, Mathematical and theoretical N2 - We revisit the Haake-Lewenstein-Wilkens approach to Edwards-Anderson (EA) model of Ising spin glass (SG) (Haake et al 1985 Phys. Rev. Lett. 55 2606). This approach consists in evaluation and analysis of the probability distribution of configurations of two replicas of the system, averaged over quenched disorder. This probability distribution generates squares of thermal copies of spin variables from the two copies of the systems, averaged over disorder, that is the terms that enter the standard definition of the original EA order parameter, qEA 0 0 KW - Edwards-Anderson order parameter KW - Haake-Lewenstein-Wilkens approach KW - spin glass KW - Saddle Point KW - Steppest Descend method Y1 - 2022 U6 - https://doi.org/10.1088/1751-8121/ac9d10 SN - 1751-8113 SN - 1751-8121 VL - 55 IS - 45 PB - IOP Publ. Ltd. CY - Bristol ER - TY - JOUR A1 - Regenstein, Wolfgang T1 - Statistische Beschreibung des Resonanzenergietransfers in Lösungen N2 - Beim Resonanzenergietransfer werden Fotonen von einem angeregten Donator über einen Wechselwirkungsabstand auf einen Akzeptor übertragen. Nach der quantenmechanischen Theorie von FÖRSTER kann dieser Abstand mit Hilfe des Überlappungsintegrals von Fluoreszenzspektrum des Donators und Absorp-tionsspektrum des Akzeptors berechnet werden. Eine andere Möglichkeit der Bestimmung erhält man mit Hilfe von statistischen Modellen, die in einem Überblick zusammengestellt sind. Dabei kann der Abstand durch Auswertung der Löschkurve bestimmt werden. In dieser Arbeit wird dazu eine weitere statistische Variante der Bestimmung des Wechselwirkungsradius hinzugefügt und an einem Beispiel ausführlich demonstriert. N2 - In resonance energy transfer, photons are transferred from an excited donor to an acceptor over an interaction distance. According to Förster's quantum mechanical theory, this distance can be calculated using the overlap integral of the fluorescence spectrum of the donor and the absorption spectrum of the acceptor. Another possibility of determination is obtained with the help of statistical models, which are compiled in an overview. The distance can be determined by evaluating the extinction curve. In this work, a further statistical variant of the determination of the interaction radius is added and demonstrated in detail using an example. KW - resonant energy transfer KW - statistical models KW - theory of Förster KW - quenching curve KW - interaction distance KW - Resonanzenergietransfer KW - statistische Modelle KW - Theorie von Förster KW - Löschkurve KW - Wechselwirkungsabstand Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-565977 ET - 2. Version ER - TY - JOUR A1 - Kliem, Bernhard A1 - Seehafer, Norbert T1 - Helicity shedding by flux rope ejection JF - Astronomy and astrophysics : an international weekly journal N2 - We quantitatively address the conjecture that magnetic helicity must be shed from the Sun by eruptions launching coronal mass ejections in order to limit its accumulation in each hemisphere. By varying the ratio of guide and strapping field and the flux rope twist in a parametric simulation study of flux rope ejection from approximately marginally stable force-free equilibria, different ratios of self- and mutual helicity are set and the onset of the torus or helical kink instability is obtained. The helicity shed is found to vary over a broad range from a minor to a major part of the initial helicity, with self helicity being largely or completely shed and mutual helicity, which makes up the larger part of the initial helicity, being shed only partly. Torus-unstable configurations with subcritical twist and without a guide field shed up to about two-thirds of the initial helicity, while a highly twisted, kink-unstable configuration sheds only about one-quarter. The parametric study also yields stable force-free flux rope equilibria up to a total flux-normalized helicity of 0.25, with a ratio of self- to total helicity of 0.32 and a ratio of flux rope to external poloidal flux of 0.94. These results numerically demonstrate the conjecture of helicity shedding by coronal mass ejections and provide a first account of its parametric dependence. Both self- and mutual helicity are shed significantly; this reduces the total initial helicity by a fraction of ∼0.4--0.65 for typical source region parameters. KW - instabilities KW - magnetic fields KW - magnetohydrodynamics (MHD) KW - Sun KW - corona KW - coronal mass ejections (CMEs) KW - flares Y1 - 2022 U6 - https://doi.org/10.1051/0004-6361/202142422 SN - 0004-6361 SN - 1432-0746 VL - 659 PB - EDP Sciences CY - Les Ulis ER - TY - THES A1 - Laquai, René T1 - Extending synchrotron X-ray refraction techniques to the quantitative analysis of metallic materials N2 - In this work, two X-ray refraction based imaging methods, namely, synchrotron X-ray refraction radiography (SXRR) and synchrotron X-ray refraction computed tomography (SXRCT), are applied to analyze quantitatively cracks and porosity in metallic materials. SXRR and SXRCT make use of the refraction of X-rays at inner surfaces of the material, e.g., the surfaces of cracks and pores, for image contrast. Both methods are, therefore, sensitive to smaller defects than their absorption based counterparts X-ray radiography and computed tomography. They can detect defects of nanometric size. So far the methods have been applied to the analysis of ceramic materials and fiber reinforced plastics. The analysis of metallic materials requires higher photon energies to achieve sufficient X-ray transmission due to their higher density. This causes smaller refraction angles and, thus, lower image contrast because the refraction index depends on the photon energy. Here, for the first time, a conclusive study is presented exploring the possibility to apply SXRR and SXRCT to metallic materials. It is shown that both methods can be optimized to overcome the reduced contrast due to smaller refraction angles. Hence, the only remaining limitation is the achievable X-ray transmission which is common to all X-ray imaging methods. Further, a model for the quantitative analysis of the inner surfaces is presented and verified. For this purpose four case studies are conducted each posing a specific challenge to the imaging task. Case study A investigates cracks in a coupon taken from an aluminum weld seam. This case study primarily serves to verify the model for quantitative analysis and prove the sensitivity to sub-resolution features. In case study B, the damage evolution in an aluminum-based particle reinforced metal-matrix composite is analyzed. Here, the accuracy and repeatability of subsequent SXRR measurements is investigated showing that measurement errors of less than 3 % can be achieved. Further, case study B marks the fist application of SXRR in combination with in-situ tensile loading. Case study C is out of the highly topical field of additive manufacturing. Here, porosity in additively manufactured Ti-Al6-V4 is analyzed with a special interest in the pore morphology. A classification scheme based on SXRR measurements is devised which allows to distinguish binding defects from keyhole pores even if the defects cannot be spatially resolved. In case study D, SXRCT is applied to the analysis of hydrogen assisted cracking in steel. Due to the high X-ray attenuation of steel a comparatively high photonenergy of 50 keV is required here. This causes increased noise and lower contrast in the data compared to the other case studies. However, despite the lower data quality a quantitative analysis of the occurance of cracks in dependence of hydrogen content and applied mechanical load is possible. N2 - In der vorliegenden Arbeit werden die zwei, auf Refraktion basierende, Röntgenbildgebungsverfahren Synchrotron Röntgen-Refraktions Radiographie (engl.: SXRR) und Synchrotron Röntgen-Refraktions Computertomographie (engl.: SXRCT) für die quantitative Analyse von Rissen und Porosität in metallischenWerkstoffen angewandt. SXRR und SXRCT nutzen die Refraktion von Röntgenstrahlen an inneren Oberflächen des Materials, z.B. die Oberflächen von Rissen und Poren, zur Bildgebung. Beide Methoden sind daher empfindlich gegenüber kleineren Defekten als ihre auf Röntgenabsorption basierenden Gegenstücke, Röntgenradiographie und Röntgen-Computertomographie. Sie sind in der Lage Defekte von nanometrischer Größe zu detektieren. Bislang wurden die Methoden für die Analyse von keramischen Werkstoffen und faserverstärkten Kunststoffen eingesetzt. Die Analyse von metallischenWerkstoffen benötigt höhere Photonenenergien benötigt werden um eine ausreichende Transmission zu erreichen. Dies hat kleinere Refraktionswinkel, und damit geringeren Bildkontrast, zur Folge, da der Brechungsindex von der Photonenenergie abhängt. Hier wird erstmals eine umfassende Studie vorgelegt, welche die Möglichkeiten zur Untersuchung metallischer Werkstoffe mittels SXRR und SXRCT untersucht. Es wird gezeigt, dass der geringere Kontrast, verursacht durch die kleineren Refraktionswinkel, überwunden werden kann. Somit ist die einzig verbleibende Beschränkung die erreichbare Transmission, die alle Röntgenbildgebungsverfahren gemeinsam haben. Darüber hinaus wird ein Modell für die quantitative Auswertung der inneren Oberflächen präsentiert und verifiziert. Zu diesem Zweck werden vier Fallstudien durchgeführt, wobei jede eine spezifische Herausforderung darstellt. In Fallstudie A werden Risse in einer Probe aus einer Aluminiumschweißnaht untersucht. Diese Fallstudie dient hauptsächlich dazu das Modell für die quantitative Analyse zu verifizieren und die Empfindlichkeit gegenüber Strukturen unterhalb des Auflösungsvermögens zu beweisen. In Fallstudie B wird die Entwicklung der Schädigung in einem aluminiumbasierten partikelverstärktem Metall-Matrix Komposit untersucht. Dabei wird die Genauigkeit und Wiederholbarkeit der SXRR Messungen analysiert und es wird gezeigt das Messfehler kleiner 3% erreicht werden können. Darüber hinaus wird in Fallstudie B erstmals SXRR in Kombination mit in-situ Zugbelastung eingesetzt. Fallstudie C ist aus dem hochaktuellen Bereich der additive Fertigung. Hier wird Porosität in additiv gefertigtem Ti-Al6-V4 analysiert mit besonderem Augenmerk auf der Morphologie der Poren. Es wurde ein Verfahren zur Klassifizierung, basierend auf SXRR Messungen, erfunden, welches Bindefehler und Poren voneinander unterscheiden kann auch wenn die Defekte nicht räumlich aufgelöst werden können. In Fallstudie D wird SXRCT zur Analyse von wasserstoffunterstützter Rissbildung in Stahl angewandt. Wegen der hohen Röntgenschwächung des Stahls muss hier mit 50 keV eine vergleichsweise hohe Photonenenergie genutzt werden. Dadurch zeigen die Daten ein erhöhtes Rauschen und geringeren Kontrast verglichen mit den anderen Fallstudien. Allerdings ist es, trotz der geringeren Datenqualität, möglich das Auftreten von Rissen in Abhängigkeit der Wasserstoffkonzentration und mechanischen Belastung zu untersuchen. T2 - Erweiterung von Röntgenrefraktions-Bildgebungsmethoden auf die quantitative Analyse von metallischen Werkstoffen KW - X-ray refraction imaging KW - non-destructive evaluation KW - computed tomography KW - porosity analysis KW - crack detection KW - Röntgen-Refraktions Bildgebung KW - zerstörungfreie Prüfung KW - Computertomography KW - Porositätsanalyse KW - Risserkennung Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-541835 ER - TY - JOUR A1 - Fischer, Eric Wolfgang A1 - Anders, Janet A1 - Saalfrank, Peter T1 - Cavity-altered thermal isomerization rates and dynamical resonant localization in vibro-polaritonic chemistry JF - The journal of chemical physics : bridges a gap between journals of physics and journals of chemistr N2 - It has been experimentally demonstrated that reaction rates for molecules embedded in microfluidic optical cavities are altered when compared to rates observed under "ordinary" reaction conditions. However, precise mechanisms of how strong coupling of an optical cavity mode to molecular vibrations affects the reactivity and how resonance behavior emerges are still under dispute. In the present work, we approach these mechanistic issues from the perspective of a thermal model reaction, the inversion of ammonia along the umbrella mode, in the presence of a single-cavity mode of varying frequency and coupling strength. A topological analysis of the related cavity Born-Oppenheimer potential energy surface in combination with quantum mechanical and transition state theory rate calculations reveals two quantum effects, leading to decelerated reaction rates in qualitative agreement with experiments: the stiffening of quantized modes perpendicular to the reaction path at the transition state, which reduces the number of thermally accessible reaction channels, and the broadening of the barrier region, which attenuates tunneling. We find these two effects to be very robust in a fluctuating environment, causing statistical variations of potential parameters, such as the barrier height. Furthermore, by solving the time-dependent Schrodinger equation in the vibrational strong coupling regime, we identify a resonance behavior, in qualitative agreement with experimental and earlier theoretical work. The latter manifests as reduced reaction probability when the cavity frequency omega(c) is tuned resonant to a molecular reactant frequency. We find this effect to be based on the dynamical localization of the vibro-polaritonic wavepacket in the reactant well. Y1 - 2022 U6 - https://doi.org/10.1063/5.0076434 SN - 0021-9606 SN - 1089-7690 VL - 156 IS - 15 PB - American Institute of Physics CY - Melville, NY ER - TY - JOUR A1 - Oster, Simon A1 - Fritsch, Tobias A1 - Ulbricht, Alexander A1 - Mohr, Gunther A1 - Bruno, Giovanni A1 - Maierhofer, Christiane A1 - Altenburg, Simon T1 - On the registration of thermographic in situ monitoring data and computed tomography reference data in the scope of defect prediction in laser powder bed fusion JF - Metals : open access journal N2 - The detection of internal irregularities is crucial for quality assessment in metal-based additive manufacturing (AM) technologies such as laser powder bed fusion (L-PBF). The utilization of in-process thermography as an in situ monitoring tool in combination with post-process X-ray micro computed tomography (XCT) as a reference technique has shown great potential for this aim. Due to the small irregularity dimensions, a precise registration of the datasets is necessary as a requirement for correlation. In this study, the registration of thermography and XCT reference datasets of a cylindric specimen containing keyhole pores is carried out for the development of a porosity prediction model. The considered datasets show variations in shape, data type and dimensionality, especially due to shrinkage and material elevation effects present in the manufactured part. Since the resulting deformations are challenging for registration, a novel preprocessing methodology is introduced that involves an adaptive volume adjustment algorithm which is based on the porosity distribution in the specimen. Thus, the implementation of a simple three-dimensional image-to-image registration is enabled. The results demonstrate the influence of the part deformation on the resulting porosity location and the importance of registration in terms of irregularity prediction. KW - selective laser melting (SLM) KW - laser powder bed fusion (L-PBF) KW - additive KW - manufacturing (AM) KW - process monitoring KW - infrared thermography KW - X-ray KW - micro computed tomography (XCT) KW - defect detection KW - image registration Y1 - 2022 U6 - https://doi.org/10.3390/met12060947 SN - 2075-4701 VL - 12 IS - 6 PB - MDPI CY - Basel ER - TY - JOUR A1 - Mallonn, Matthias A1 - Poppenhäger, Katja A1 - Granzer, Thomas A1 - Weber, Michael A1 - Strassmeier, Klaus G. T1 - Detection capability of ground-based meter-sized telescopes for shallow exoplanet transits JF - Astronomy and astrophysics : an international weekly journal N2 - Meter-sized ground-based telescopes are frequently used today for the follow-up of extrasolar planet candidates. While the transit signal of a Jupiter-sized object can typically be detected to a high level of confidence with small telescope apertures as well, the shallow transit dips of planets with the size of Neptune and smaller are more challenging to reveal. We employ new observational data to illustrate the photometric follow-up capabilities of meter-sized telescopes for shallow exoplanet transits. We describe in detail the capability of distinguishing the photometric signal of an exoplanet transit from an underlying trend in the light curve. The transit depths of the six targets we observed, Kepler-94b, Kepler-63b, K2-100b, K2-138b, K2-138c, and K2-138e, range from 3.9 ppt down to 0.3 ppt. For five targets of this sample, we provide the first ground-based photometric follow-up. The timing of three targets is precisely known from previous observations, and the timing of the other three targets is uncertain and we aim to constrain it. We detect or rule out the transit features significantly in single observations for the targets that show transits of 1.3 ppt or deeper. The shallower transit depths of two targets of 0.6 and 0.8 ppt were detected tentatively in single light curves, and were detected significantly by repeated observations. Only for the target of the shallowest transit depth of 0.3 ppt were we unable to draw a significant conclusion despite combining five individual light curves. An injection-recovery test on our real data shows that we detect transits of 1.3 ppt depth significantly in single light curves if the transit is fully covered, including out-of-transit data toward both sides, in some cases down to 0.7 ppt depth. For Kepler-94b, Kepler-63b, and K2-100b, we were able to verify the ephemeris. In the case of K2-138c with a 0.6 ppt deep transit, we were able to refine it, and in the case of K2-138e, we ruled out the transit in the time interval of more than ±1.5 σ of its current literature ephemeris. KW - methods: observational KW - techniques: photometric KW - planets and satellites: fundamental parameters Y1 - 2022 U6 - https://doi.org/10.1051/0004-6361/202140599 SN - 0004-6361 SN - 1432-0746 VL - 657 PB - EDP Sciences CY - Les Ulis ER - TY - JOUR A1 - Poppenhäger, Katja T1 - Helium absorption in exoplanet atmospheres is connected to stellar coronal abundances JF - Monthly notices of the Royal Astronomical Society N2 - Transit observations in the helium triplet around 10 830 Angstrom are a successful tool to study exoplanetary atmospheres and their mass loss. Forming those lines requires ionization and recombination of helium in the exoplanetary atmosphere. This ionization is caused by stellar photons at extreme ultraviolet (EUV) wavelengths; however, no currently active telescopes can observe this part of the stellar spectrum. The relevant part of the stellar EUV spectrum consists of individual emission lines, many of them being formed by iron at coronal temperatures. The stellar iron abundance in the corona is often observed to be depleted for high-activity low-mass stars due to the first ionization potential (FIP) effect. I show that stars with high versus low coronal iron abundances follow different scaling laws that tie together their X-ray emission and the narrow-band EUV flux that causes helium ionization. I also show that the stellar iron to oxygen abundance ratio in the corona can be measured reasonably well from X-ray CCD spectra, yielding similar results to high-resolution X-ray observations. Taking coronal iron abundance into account, the currently observed large scatter in the relationship of EUV irradiation with exoplanetary helium transit depths can be reduced, improving the target selection criteria for exoplanet transmission spectroscopy. In particular, previously puzzling non-detections of helium for Neptunic exoplanets are now in line with expectations from the revised scaling laws. KW - planets and satellites: atmospheres KW - stars: abundances KW - stars: coronae KW - stars: late-type KW - ultraviolet: stars KW - X-rays: stars Y1 - 2022 U6 - https://doi.org/10.1093/mnras/stac507 SN - 0035-8711 SN - 1365-2966 VL - 512 IS - 2 SP - 1751 EP - 1764 PB - Oxford Univ. Press CY - Oxford ER - TY - JOUR A1 - Nemati, Somayyeh A1 - Henkel, Carsten A1 - Anders, Janet T1 - Coupling function from bath density of states JF - epl : a letters journal exploring the frontiers of physics N2 - Modelling of an open quantum system requires knowledge of parameters that specify how it couples to its environment. However, beyond relaxation rates, realistic parameters for specific environments and materials are rarely known. Here we present a method of inferring the coupling between a generic system and its bosonic (e.g., phononic) environment from the experimentally measurable density of states (DOS). With it we confirm that the DOS of the well-known Debye model for three-dimensional solids is physically equivalent to choosing an Ohmic bath. We further match a real phonon DOS to a series of Lorentzian coupling functions, allowing us to determine coupling parameters for gold, yttrium iron garnet (YIG) and iron as examples. The results illustrate how to obtain material-specific dynamical properties, such as memory kernels. The proposed method opens the door to more accurate modelling of relaxation dynamics, for example for phonon-dominated spin damping in magnetic materials. Y1 - 2022 U6 - https://doi.org/10.1209/0295-5075/ac7b42 SN - 0295-5075 SN - 1286-4854 VL - 139 IS - 3 PB - IOP Publ. Ltd. CY - Bristol ER - TY - JOUR A1 - Omel'chenko, Oleh A1 - Laing, Carlo R. T1 - Collective states in a ring network of theta neurons JF - Proceedings of the Royal Society of London. Series A, Mathematical, physical and engineering sciences N2 - We consider a ring network of theta neurons with non-local homogeneous coupling. We analyse the corresponding continuum evolution equation, analytically describing all possible steady states and their stability. By considering a number of different parameter sets, we determine the typical bifurcation scenarios of the network, and put on a rigorous footing some previously observed numerical results. KW - theta neurons KW - neural networks KW - bumps Y1 - 2022 U6 - https://doi.org/10.1098/rspa.2021.0817 SN - 1364-5021 SN - 1471-2946 VL - 478 IS - 2259 PB - Royal Society CY - London ER - TY - GEN A1 - Seckler, Henrik A1 - Metzler, Ralf T1 - Bayesian deep learning for error estimation in the analysis of anomalous diffusion T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Sprache Englisch Modern single-particle-tracking techniques produce extensive time-series of diffusive motion in a wide variety of systems, from single-molecule motion in living-cells to movement ecology. The quest is to decipher the physical mechanisms encoded in the data and thus to better understand the probed systems. We here augment recently proposed machine-learning techniques for decoding anomalous-diffusion data to include an uncertainty estimate in addition to the predicted output. To avoid the Black-Box-Problem a Bayesian-Deep-Learning technique named Stochastic-Weight-Averaging-Gaussian is used to train models for both the classification of the diffusionmodel and the regression of the anomalous diffusion exponent of single-particle-trajectories. Evaluating their performance, we find that these models can achieve a wellcalibrated error estimate while maintaining high prediction accuracies. In the analysis of the output uncertainty predictions we relate these to properties of the underlying diffusion models, thus providing insights into the learning process of the machine and the relevance of the output. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1314 KW - random-walk KW - models Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-586025 SN - 1866-8372 IS - 1314 ER - TY - GEN A1 - Sposini, Vittoria A1 - Krapf, Diego A1 - Marinari, Enzo A1 - Sunyer, Raimon A1 - Ritort, Felix A1 - Taheri, Fereydoon A1 - Selhuber-Unkel, Christine A1 - Benelli, Rebecca A1 - Weiss, Matthias A1 - Metzler, Ralf A1 - Oshanin, Gleb T1 - Towards a robust criterion of anomalous diffusion T2 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe N2 - Anomalous-diffusion, the departure of the spreading dynamics of diffusing particles from the traditional law of Brownian-motion, is a signature feature of a large number of complex soft-matter and biological systems. Anomalous-diffusion emerges due to a variety of physical mechanisms, e.g., trapping interactions or the viscoelasticity of the environment. However, sometimes systems dynamics are erroneously claimed to be anomalous, despite the fact that the true motion is Brownian—or vice versa. This ambiguity in establishing whether the dynamics as normal or anomalous can have far-reaching consequences, e.g., in predictions for reaction- or relaxation-laws. Demonstrating that a system exhibits normal- or anomalous-diffusion is highly desirable for a vast host of applications. Here, we present a criterion for anomalous-diffusion based on the method of power-spectral analysis of single trajectories. The robustness of this criterion is studied for trajectories of fractional-Brownian-motion, a ubiquitous stochastic process for the description of anomalous-diffusion, in the presence of two types of measurement errors. In particular, we find that our criterion is very robust for subdiffusion. Various tests on surrogate data in absence or presence of additional positional noise demonstrate the efficacy of this method in practical contexts. Finally, we provide a proof-of-concept based on diverse experiments exhibiting both normal and anomalous-diffusion. T3 - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1313 Y1 - 2023 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-585967 SN - 1866-8372 IS - 1313 ER - TY - JOUR A1 - Bonetto, Riccardo A1 - Pound, Adam A1 - Sam, Zeyd T1 - Deformed Schwarzschild horizons in second-order perturbation theory BT - mass, geometry, and teleology JF - Physical review D, Particles, fields, gravitation, and cosmology N2 - In recent years, gravitational-wave astronomy has motivated increasingly accurate perturbative studies of gravitational dynamics in compact binaries. This in turn has enabled more detailed analyses of the dynamical black holes in these systems. For example, Pound et al. [Phys. Rev. Lett. 124, 021101 (2020)] recently computed the surface area of a Schwarzschild black hole's apparent horizon, perturbed by an orbiting body, to second order in the binary's mass ratio. In this paper, we take that as the starting point for a comprehensive study of a perturbed Schwarzschild black hole's apparent and event horizon at second perturbative order, deriving generic formulas for the first- and second-order corrections to the horizons' radial profiles, surface areas, Hawking masses, and intrinsic curvatures. We find that the two horizons are remarkably similar, and that any teleological behavior of the event horizon is suppressed in several ways. Critically, we establish that at all orders, the perturbed event horizon in a small-mass-ratio binary is effectively localized in time. Even more pointedly, the event horizon is identical to the apparent horizon at linear order regardless of the source of perturbation, implying that the seemingly teleological "tidal lead," previously observed in linearly perturbed event horizons, is not genuinely teleological in origin. The two horizons do generically differ at second order, but their Hawking masses remain identical, implying that the event horizon obeys the same energy-flux balance law as the apparent horizon. At least in the case of a binary system, the difference between their surface areas remains extremely small even in the late stages of inspiral. In the course of our analysis, we also numerically illustrate puzzling behavior in the black hole's motion around the binary's center of mass. Y1 - 2022 U6 - https://doi.org/10.1103/PhysRevD.105.024048 SN - 2470-0010 SN - 2470-0029 VL - 105 IS - 2 PB - American Physical Society CY - College Park ER - TY - JOUR A1 - Awad, Emad A1 - Metzler, Ralf T1 - Closed-form multi-dimensional solutions and asymptotic behaviours for subdiffusive processes with crossovers: II. Accelerating case JF - Journal of physics : A, Mathematical and theoretical N2 - Anomalous diffusion with a power-law time dependence vertical bar R vertical bar(2)(t) similar or equal to t(alpha i) of the mean squared displacement occurs quite ubiquitously in numerous complex systems. Often, this anomalous diffusion is characterised by crossovers between regimes with different anomalous diffusion exponents alpha(i). Here we consider the case when such a crossover occurs from a first regime with alpha(1) to a second regime with alpha(2) such that alpha(2) > alpha(1), i.e., accelerating anomalous diffusion. A widely used framework to describe such crossovers in a one-dimensional setting is the bi-fractional diffusion equation of the so-called modified type, involving two time-fractional derivatives defined in the Riemann-Liouville sense. We here generalise this bi-fractional diffusion equation to higher dimensions and derive its multidimensional propagator (Green's function) for the general case when also a space fractional derivative is present, taking into consideration long-ranged jumps (Levy flights). We derive the asymptotic behaviours for this propagator in both the short- and long-time as well the short- and long-distance regimes. Finally, we also calculate the mean squared displacement, skewness and kurtosis in all dimensions, demonstrating that in the general case the non-Gaussian shape of the probability density function changes. KW - multidimensional fractional diffusion equation KW - continuous time random KW - walks KW - crossover anomalous diffusion dynamics KW - non-Gaussian probability KW - density Y1 - 2022 U6 - https://doi.org/10.1088/1751-8121/ac5a90 SN - 1751-8113 SN - 1751-8121 VL - 55 IS - 20 PB - IOP Publ. Ltd. CY - Bristol ER - TY - JOUR A1 - Ilin, Ekaterina A1 - Poppenhäger, Katja A1 - Alvarado-Gómez, Julián David T1 - Localizing flares to understand stellar magnetic fields and space weather in exo-systems JF - Astronomische Nachrichten = Astronomical notes N2 - Stars are uniform spheres, but only to first order. The way in which stellar rotation and magnetism break this symmetry places important observational constraints on stellar magnetic fields, and factors in the assessment of the impact of stellar activity on exoplanet atmospheres. The spatial distribution of flares on the solar surface is well known to be nonuniform, but elusive on other stars. We briefly review the techniques available to recover the loci of stellar flares, and highlight a new method that enables systematic flare localization directly from optical light curves. We provide an estimate of the number of flares we may be able to localize with the Transiting Exoplanet Survey Satellite, and show that it is consistent with the results obtained from the first full sky scan of the mission. We suggest that nonuniform flare latitude distributions need to be taken into account in accurate assessments of exoplanet habitability. KW - stars KW - activity - stars KW - flare - stars KW - magnetic fields - methods KW - data KW - analysis Y1 - 2022 U6 - https://doi.org/10.1002/asna.20210111 SN - 1521-3994 VL - 343 IS - 4 PB - Berlin CY - Wiley-VCH ER - TY - JOUR A1 - Hantschmann, Markus A1 - Föhlisch, Alexander T1 - A rate model approach for FEL pulse induced transmissions changes, saturable absorption, X-ray transparency and stimulated emission JF - Journal of electron spectroscopy and related phenomena : the international journal on theoretical and experimental aspects of electron spectroscopy N2 - As the use of free electron laser (FEL) sources increases, so do the findings mentioning non-linear phenomena occurring at these experiments, such as saturable absorption, induced transparency and scattering breakdowns. These are well known among the laser community, but are still rarely understood and expected among the X-ray community and to date lack tools and theories to accurately predict the respective experimental parameters and results. We present a simple theoretical framework to access short X-ray pulse induced light- matter interactions which occur at intense short X-ray pulses as available at FEL sources. Our approach allows to investigate effects such as saturable absorption, induced transparency and scattering suppression, stimulated emission, and transmission spectra, while including the density of state influence relevant to soft X-ray spectroscopy in, for example, transition metal complexes or functional materials. This computationally efficient rate model based approach is intuitively adaptable to most solid state sample systems in the soft X-ray spectrum with the potential to be extended for liquid and gas sample systems as well. The feasibility of the model to estimate the named effects and the influence of the density of state is demonstrated using the example of CoPd transition metal systems at the Co edge. We believe this work is an important contribution for the preparation, performance, and understanding of FEL based high intensity and short pulse experiments, especially on functional materials in the soft X-ray spectrum. KW - Free-electron-laser science KW - RIXS at FELs KW - Stimulated scattering KW - Pulse induced transparency KW - Scattering breakdown Y1 - 2022 U6 - https://doi.org/10.1016/j.elspec.2021.147139 SN - 0368-2048 VL - 256 PB - Elsevier CY - Amsterdam ER -