TY  - JOUR
A1  - Pavlenko, Elena S.
A1  - Sander, Mathias
A1  - Mitzscherling, S.
A1  - Pudell, Jan-Etienne
A1  - Zamponi, Flavio
A1  - Roessle, M.
A1  - Bojahr, Andre
A1  - Bargheer, Matias
T1  - Azobenzene - functionalized polyelectrolyte nanolayers as ultrafast optoacoustic transducers
JF  - Nanoscale
N2  - We introduce azobenzene-functionalized polyelectrolyte multilayers as efficient, inexpensive optoacoustic transducers for hyper-sound strain waves in the GHz range. By picosecond transient reflectivity measurements we study the creation of nanoscale strain waves, their reflection from interfaces, damping by scattering from nanoparticles and propagation in soft and hard adjacent materials like polymer layers, quartz and mica. The amplitude of the generated strain epsilon similar to 5 x 10(-4) is calibrated by ultrafast X-ray diffraction.
Y1  - 2016
U6  - https://doi.org/10.1039/c6nr01448h
SN  - 2040-3364
SN  - 2040-3372
VL  - 8
SP  - 13297
EP  - 13302
PB  - Royal Society of Chemistry
CY  - Cambridge
ER  - 
TY  - GEN
A1  - Pavlenko, Elena S.
A1  - Sander, Mathias
A1  - Mitzscherling, Steffen
A1  - Pudell, Jan-Etienne
A1  - Zamponi, Flavio
A1  - Rössle, Matthias
A1  - Bojahr, Andre
A1  - Bargheer, Matias
T1  - Azobenzene – functionalized polyelectrolyte nanolayers as ultrafast optoacoustic transducers
N2  - We introduce azobenzene-functionalized polyelectrolyte multilayers as efficient, inexpensive optoacoustic transducers for hyper-sound strain waves in the GHz range. By picosecond transient reflectivity measurements we study the creation of nanoscale strain waves, their reflection from interfaces, damping by scattering from nanoparticles and propagation in soft and hard adjacent materials like polymer layers, quartz and mica. The amplitude of the generated strain ε ∼ 5 × 10−4 is calibrated by ultrafast X-ray diffraction.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 297 
Y1  - 2016
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-101996
VL  - 8
SP  - 13297
EP  - 13302
ER  - 
TY  - JOUR
A1  - Sander, Mathias
A1  - Koc, A.
A1  - Kwamen, C. T.
A1  - Michaels, H.
A1  - von Reppert, Alexander
A1  - Pudell, Jan-Etienne
A1  - Zamponi, Flavio
A1  - Bargheer, Matias
A1  - Sellmann, J.
A1  - Schwarzkopf, J.
A1  - Gaal, P.
T1  - Characterization of an ultrafast Bragg-Switch for shortening hard x-ray pulses
JF  - Journal of applied physics
N2  - We present a nanostructured device that functions as photoacoustic hard x-ray switch. The device is triggered by femtosecond laser pulses and allows for temporal gating of hard x-rays on picosecond (ps) timescales. It may be used for pulse picking or even pulse shortening in 3rd generation synchrotron sources. Previous approaches mainly suffered from insufficient switching contrasts due to excitation-induced thermal distortions. We present a new approach where thermal distortions are spatially separated from the functional switching layers in the structure. Our measurements yield a switching contrast of 14, which is sufficient for efficient hard x-ray pulse shortening. The optimized structure also allows for utilizing the switch at high repetition rates of up to 208 kHz. Published by AIP Publishing.
Y1  - 2016
U6  - https://doi.org/10.1063/1.4967835
SN  - 0021-8979
SN  - 1089-7550
VL  - 120
PB  - American Institute of Physics
CY  - Melville
ER  - 
TY  - JOUR
A1  - Liebig, Ferenc
A1  - Sarhan, Radwan Mohamed
A1  - Sander, Mathias
A1  - Koopman, Wouter-Willem Adriaan
A1  - Schuetz, Roman
A1  - Bargheer, Matias
A1  - Koetz, Joachim
T1  - Deposition of Gold Nanotriangles in Large Scale Close-Packed Monolayers for X-ray-Based Temperature Calibration and SERS Monitoring of Plasmon-Driven Catalytic Reactions
JF  - ACS applied materials & interfaces
KW  - gold nanotriangles
KW  - monolayer formation
KW  - SERS
KW  - dimerization
KW  - heat measurement
Y1  - 2017
U6  - https://doi.org/10.1021/acsami.7b07231
SN  - 1944-8244
VL  - 9
SP  - 20247
EP  - 20253
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - Shayduk, Roman
A1  - Herzog, Marc
A1  - Bojahr, Andre
A1  - Schick, Daniel
A1  - Gaal, Peter
A1  - Leitenberger, Wolfram
A1  - Navirian, Hengameh
A1  - Sander, Mathias
A1  - Goldshteyn, Jevgenij
A1  - Vrejoiu, Ionela
A1  - Bargheer, Matias
T1  - Direct time-domain sampling of subterahertz coherent acoustic phonon spectra in SrTiO3 using ultrafast x-ray diffraction
JF  - Physical review : B, Condensed matter and materials physics
N2  - We synthesize sub-THz longitudinal quasimonochromatic acoustic phonons in a SrTiO3 single crystal using a SrRuO3/SrTiO3 superlattice as an optical-acoustic transducer. The generated acoustic phonon spectrum is determined using ultrafast x-ray diffraction. The analysis of the generated phonon spectrum in the time domain reveals a k-vector dependent phonon lifetime. It is observed that even at sub-THz frequencies the phonon lifetime agrees with the 1/omega(2) power law known from Akhiezer's model for hyper sound attenuation. The observed shift of the synthesized spectrum to the higher q is discussed in the framework of nonlinear effects appearing due to the high amplitude of the synthesized phonons.
Y1  - 2013
U6  - https://doi.org/10.1103/PhysRevB.87.184301
SN  - 1098-0121
VL  - 87
IS  - 18
PB  - American Physical Society
CY  - College Park
ER  - 
TY  - JOUR
A1  - Pavlenko, Elena S.
A1  - Sander, Mathias
A1  - Cui, Q.
A1  - Bargheer, Matias
T1  - Gold Nanorods Sense the Ultrafast Viscoelastic Deformation of Polymers upon Molecular Strain Actuation
JF  - The journal of physical chemistry : C, Nanomaterials and interfaces
N2  - On the basis of the layer-by-layer deposition of polyelectrolytes, we have designed hybrid nanolayer composites for integrated optoacoustic experiments. The femtosecond-laser-excitation of an Azo functionalized film launches nanoscale strain waves at GHz frequencies into a transparent polymer layer. Gold nanorods deposited on the surface sense the arrival of these hyper-sound-waves on the picosecond time scale via a modification of their longitudinal plasmon resonance. We simulated the strain waves using a simple linear masses-and-springs model, which yields good agreement with the observed time scales associated with the nanolayer thicknesses of the constituent materials. From systematic experiments with calibrated strain amplitudes we conclude that reversible viscoelastic deformations of the polyelectrolyte multilayers are triggered by ultrashort pressure transients of about 4 MPa. Our experiments show that strain-mediated interactions in nanoarchitectures composed of molecular photoswitches and plasmonic particles may be used to design new functionalities. The approach combines the highly flexible and cost-effective preparation of polyelectrolyte multilayers with ultrafast molecular strain actuation and plasmonic sensing. Although we use simple flat layered structures for demonstration, this new concept can be used for three-dimensional nanoassemblies with different functionalities. The ultrafast and reversible nature of the response is highly desirable, and the short wavelength associated with the high frequency of the hyper-sound-waves connecting photoactive molecules and nanoparticles inherently gives spectroscopic access to the nanoscale. High-frequency elastic moduli are derived from the ultrafast spectroscopy of the hypersonic response in polyelectrolyte multilayers.
Y1  - 2016
U6  - https://doi.org/10.1021/acs.jpcc.6b06915
SN  - 1932-7447
VL  - 120
SP  - 24957
EP  - 24964
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - JOUR
A1  - Sander, Mathias
A1  - Pudell, Jan-Etienne
A1  - Herzog, Marc
A1  - Bargheer, Matias
A1  - Bauer, R.
A1  - Besse, V.
A1  - Temnov, V.
A1  - Gaal, P.
T1  - Quantitative disentanglement of coherent and incoherent laser-induced surface deformations by time-resolved x-ray reflectivity
JF  - Applied physics letters
N2  - We present time-resolved x-ray reflectivity measurements on laser excited coherent and incoherent surface deformations of thin metallic films. Based on a kinematical diffraction model, we derive the surface amplitude from the diffracted x-ray intensity and resolve transient surface excursions with sub-angstrom spatial precision and 70 ps temporal resolution. The analysis allows for decomposition of the surface amplitude into multiple coherent acoustic modes and a substantial contribution from incoherent phonons which constitute the sample heating. Published by AIP Publishing.
Y1  - 2017
U6  - https://doi.org/10.1063/1.5004522
SN  - 0003-6951
SN  - 1077-3118
VL  - 111
PB  - American Institute of Physics
CY  - Melville
ER  - 
TY  - JOUR
A1  - Bojahr, Andre
A1  - Gohlke, Matthias
A1  - Leitenberger, Wolfram
A1  - Pudell, Jan-Etienne
A1  - Reinhardt, Matthias
A1  - von Reppert, Alexander
A1  - Rössle, Matthias
A1  - Sander, Mathias
A1  - Gaal, Peter
A1  - Bargheer, Matias
T1  - Second Harmonic Generation of Nanoscale Phonon Wave Packets
JF  - Physical review letters
N2  - Phonons are often regarded as delocalized quasiparticles with certain energy and momentum. The anharmonic interaction of phonons determines macroscopic properties of the solid, such as thermal expansion or thermal conductivity, and a detailed understanding becomes increasingly important for functional nanostructures. Although phonon-phonon scattering processes depicted in simple wave-vector diagrams are the basis of theories describing these macroscopic phenomena, experiments directly accessing these coupling channels are scarce. We synthesize monochromatic acoustic phonon wave packets with only a few cycles to introduce nonlinear phononics as the acoustic counterpart to nonlinear optics. Control of the wave vector, bandwidth, and consequently spatial extent of the phonon wave packets allows us to observe nonlinear phonon interaction, in particular, second harmonic generation, in real time by wave-vector-sensitive Brillouin scattering with x-rays and optical photons.
Y1  - 2015
U6  - https://doi.org/10.1103/PhysRevLett.115.195502
SN  - 0031-9007
SN  - 1079-7114
VL  - 115
IS  - 19
PB  - American Physical Society
CY  - College Park
ER  - 
TY  - JOUR
A1  - Sander, Mathias
A1  - Herzog, Marc
A1  - Pudell, Jan-Etienne
A1  - Bargheer, Matias
A1  - Weinkauf, N.
A1  - Pedersen, M.
A1  - Newby, G.
A1  - Sellmann, J.
A1  - Schwarzkopf, J.
A1  - Besse, V.
A1  - Temnov, V. V.
A1  - Gaal, P.
T1  - Spatiotemporal Coherent Control of Thermal Excitations in Solids
JF  - Physical review letters
N2  - X-ray reflectivity measurements of femtosecond laser-induced transient gratings (TG) are applied to demonstrate the spatiotemporal coherent control of thermally induced surface deformations on ultrafast time scales. Using grazing incidence x-ray diffraction we unambiguously measure the amplitude of transient surface deformations with sub-angstrom resolution. Understanding the dynamics of femtosecond TG excitations in terms of superposition of acoustic and thermal gratings makes it possible to develop new ways of coherent control in x-ray diffraction experiments. Being the dominant source of TG signal, the long-living thermal grating with spatial period. can be canceled by a second, time-delayed TG excitation shifted by Lambda/2. The ultimate speed limits of such an ultrafast x-ray shutter are inferred from the detailed analysis of thermal and acoustic dynamics in TG experiments.
Y1  - 2017
U6  - https://doi.org/10.1103/PhysRevLett.119.075901
SN  - 0031-9007
SN  - 1079-7114
VL  - 119
SP  - 102
EP  - 110
PB  - American Physical Society
CY  - College Park
ER  - 
TY  - THES
A1  - Sander, Mathias
T1  - Ultrafast tailored strain fields in nanostructures
T1  - Ultraschnelle massgeschneiderte Dehnungsfelder in Nanostrukturen
N2  - This publication based thesis, which consists of seven published articles, summarizes my contributions to the research field of laser excited ultrafast structural dynamics. The coherent and incoherent lattice dynamics on microscopic length scales are detected by ultrashort optical and X-ray pulses. The understanding of the complex physical processes is essential for future improvements of technological applications. For this purpose, tabletop soruces and large scale facilities, e.g. synchrotrons, are employed to study structural dynamics of longitudinal acoustic strain waves and heat transport. The investigated effects cover timescales from hundreds of femtoseconds up to several microseconds.
The main part of this thesis is dedicated to the investigation of tailored phonon wave packets propagating in perovskite nanostructures. Tailoring is achieved either by laser excitation of nanostructured bilayer samples or by a temporal series of laser pulses. Due to the propagation of longitudinal acoustic phonons, the out-of-plane lattice spacing of a thin film insulator-metal bilayer sample is modulated on an ultrafast timescale. This leads to an ultrafast modulation of the X-ray diffraction efficiency which is employed as a phonon Bragg switch to shorten hard X-ray pulses emitted from a 3rd generation synchrotron.
In addition, we have observed nonlinear mixing of high amplitude phonon wave packets which originates from an anharmonic interatomic potential. A chirped optical pulse sequence excites a narrow band phonon wave packet with specific momentum and energy. The second harmonic generation of these phonon wave packets is followed by ultrafast X-ray diffraction. Phonon upconversion takes place because the high amplitude phonon wave packet modulates the acoustic properties of the crystal which leads to self steepening and to the successive generation of higher harmonics of the phonon wave packet.
Furthermore, we have demonstrated ultrafast strain in direction parallel to the sample surface. Two consecutive so-called transient grating excitations displaced in space and time are used to coherently control thermal gradients and surface acoustic modes. The amplitude of the coherent and incoherent surface excursion is disentangled by time resolved X-ray reflectivity measurements. We calibrate the absolute amplitude of thermal and acoustic surface excursion with measurements of longitudinal phonon propagation. In addition, we develop a diffraction model which allows for measuring the surface excursion on an absolute length scale with sub-Äangström precision. Finally, I demonstrate full coherent control of an excited surface deformation by amplifying and suppressing thermal and coherent excitations at the surface of a laser-excited Yttrium-manganite sample.
N2  - Diese publikations basierte Dissertation enthält sieben veröffentlichte Artikel und ist ein Beitrag zum Forschungsfeld der laserangeregten ultraschnellen Strukturdynamik. Dabei wird die kohärente und inkohärente Gitterdynamik mit Hilfe von ultrakurzen optischen Pulsen sowie Röntgenpulsen auf mikroskopischer Längenskala untersucht. Das Verständnis dieser komplexen physikalischen Prozesse ist essenziell für die Verbesserung von zukünftigen technologischen Anwendungen. Hierfür wurde die Strukturdynamik von longitudinal akustischen Schallwellen und Wärmetransport mit Hilfe von verschieden Messinstrumenten, basierend auf Labor und Synchrotronstrahlungsquellen, untersucht. Die untersuchten Effekte umfassen Zeitskalen von einigen hundert Femtosekunden bis hin zu mehreren Mikrosekunden.
Der Hauptteil meiner Dissertation beruht auf der Untersuchungen von definiert angeregten Phonon-Wellenpakten, die sich in Perowskit Nanostrukturen ausbreiten. Die Kontrolle wird entweder durch Laseranregung einer nanostruktieren Doppelschichtprobe oder durch eine zeitlich versetzte Laserpulsfolge erreicht. Dabei wird die Einheitszelle senkrecht zu den Gitterebenen auf ultraschnellen Zeiten modifiziert. Daraus folgt eine ultraschnelle Modulation der Röntgenbeugungs Effizienz, die als Phonon Braggschalter verwendet wird, um harte Röntgenpulse von Synchrotrons der dritten Generation zu verkürzen.
Zudem haben wir die nichtlineare Mischung von Phonon-Wellenpaketen mit hoher Amplitude beobachtet, die der Anharmonizität des interatomaren Potential herrührt. Durch eine gechirpte optische Laserpulsfolge wird ein schmalbandiges Phonon-Wellenpaket mit definiertem Impuls und definierter Energie angeregt. Dabei wird die Erzeugung der zweiten Harmonischen mittels ultraschneller Röntgenbeugung untersucht. Die Phononkonversion findet hierbei durch die hohe Phononamplitude statt, die die akustischen Eigenschaften des Kristalls verändert. Dieser Prozess führt zum Aufsteilen der Wellenfront und folglich zur Erzeugung der höheren Harmonischen des Phonon-Wellenpakets.
Außerdem habe ich ultraschnelle Schallpulse parallel zur Richtung der Probenoberfläche demonstriert. Dabei werden zwei sogenannte transiente Gitteranregungen verwendet, die räumlich und zeitlich zueinander versetzt sind, um thermische Gradienten und akustische Oberflächenmoden kohärent zu kontrollieren. Die Amplitude der kohärenten und inkohärenten Oberflächenausdehnung kann mit Hilfe von Röntgenreflektivität getrennt betrachtet werden. Zusätzlich haben wir ein Beugungsmodel entwickelt, mit dem wir die Oberflächenausdehnung auf einer absoluten Längenskale mit sub-Ängström Präzision kalibrieren. Schließlich zeige ich volle kohärente Kontrolle von der angeregten Oberflächenausdehnung durch Verstärkung und Unterdrückung von thermischen und kohärenten Anregungen auf der Oberfläche einer dünnen, laserangeregten Yttriummanganat Schicht.
KW  - Ultrafast X-ray diffraction
KW  - strain
KW  - acoustic waves
KW  - Ultraschnelle Röntgenbeugung
KW  - akustische Wellen
KW  - Dehnung
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-417863
ER  -