TY - JOUR A1 - De Angelis, A. A1 - Tatischeff, V. A1 - Grenier, I. A. A1 - McEnery, J. A1 - Mallamaci, Manuela A1 - Tavani, M. A1 - Oberlack, U. A1 - Hanlon, L. A1 - Walter, R. A1 - Argan, A. A1 - Von Ballmoos, P. A1 - Bulgarelli, A. A1 - Bykov, A. A1 - Hernanz, M. A1 - Kanbach, G. A1 - Kuvvetli, I. A1 - Pearce, M. A1 - Zdziarski, A. A1 - Conrad, J. A1 - Ghisellini, G. A1 - Harding, A. A1 - Isern, J. A1 - Leising, M. A1 - Longo, F. A1 - Madejski, G. A1 - Martinez, M. A1 - Mazziotta, Mario Nicola A1 - Paredes, J. M. A1 - Pohl, Martin A1 - Rando, R. A1 - Razzano, M. A1 - Aboudan, A. A1 - Ackermann, M. A1 - Addazi, A. A1 - Ajello, M. A1 - Albertus, C. A1 - Alvarez, J. M. A1 - Ambrosi, G. A1 - Anton, S. A1 - Antonelli, L. A. A1 - Babic, A. A1 - Baibussinov, B. A1 - Balbom, M. A1 - Baldini, L. A1 - Balman, S. A1 - Bambi, C. A1 - Barres de Almeida, U. A1 - Barrio, J. A. A1 - Bartels, R. A1 - Bastieri, D. A1 - Bednarek, W. A1 - Bernard, D. A1 - Bernardini, E. A1 - Bernasconi, T. A1 - Bertucci, B. A1 - Biland, A. A1 - Bissaldi, E. A1 - Boettcher, M. A1 - Bonvicini, V. A1 - Bosch-Ramon, V. A1 - Bottacini, E. A1 - Bozhilov, V. A1 - Bretz, T. A1 - Branchesi, M. A1 - Brdar, V. A1 - Bringmann, T. A1 - Brogna, A. A1 - Jorgensen, C. Budtz A1 - Busetto, G. A1 - Buson, S. A1 - Busso, M. A1 - Caccianiga, A. A1 - Camera, S. A1 - Campana, R. A1 - Caraveo, P. A1 - Cardillo, M. A1 - Carlson, P. A1 - Celestin, S. A1 - Cermeno, M. A1 - Chen, A. A1 - Cheung, C. C. A1 - Churazov, E. A1 - Ciprini, S. A1 - Coc, A. A1 - Colafrancesco, S. A1 - Coleiro, A. A1 - Collmar, W. A1 - Coppi, P. A1 - Curado da Silva, R. A1 - Cutini, S. A1 - De Lotto, B. A1 - de Martino, D. A1 - De Rosa, A. A1 - Del Santo, M. A1 - Delgado, L. A1 - Diehl, R. A1 - Dietrich, S. A1 - Dolgov, A. D. A1 - Dominguez, A. A1 - Prester, D. Dominis A1 - Donnarumma, I. A1 - Dorner, D. A1 - Doro, M. A1 - Dutra, M. A1 - Elsaesser, D. A1 - Fabrizio, M. A1 - Fernandez-Barral, A. A1 - Fioretti, V. A1 - Foffano, L. A1 - Formato, V. A1 - Fornengo, N. A1 - Foschini, L. A1 - Franceschini, A. A1 - Franckowiak, A. A1 - Funk, S. A1 - Fuschino, F. A1 - Gaggero, D. A1 - Galanti, G. A1 - Gargano, F. A1 - Gasparrini, D. A1 - Gehrz, R. A1 - Giammaria, P. A1 - Giglietto, N. A1 - Giommi, P. A1 - Giordano, F. A1 - Giroletti, M. A1 - Ghirlanda, G. A1 - Godinovic, N. A1 - Gouiffes, C. A1 - Grove, J. E. A1 - Hamadache, C. A1 - Hartmann, D. H. A1 - Hayashida, M. A1 - Hryczuk, A. A1 - Jean, P. A1 - Johnson, T. A1 - Jose, J. A1 - Kaufmann, S. A1 - Khelifi, B. A1 - Kiener, J. A1 - Knodlseder, J. A1 - Kolem, M. A1 - Kopp, J. A1 - Kozhuharov, V. A1 - Labanti, C. A1 - Lalkovski, S. A1 - Laurent, P. A1 - Limousin, O. A1 - Linares, M. A1 - Lindfors, E. A1 - Lindner, M. A1 - Liu, J. A1 - Lombardi, S. A1 - Loparco, F. A1 - Lopez-Coto, R. A1 - Lopez Moya, M. A1 - Lott, B. A1 - Lubrano, P. A1 - Malyshev, D. A1 - Mankuzhiyil, N. A1 - Mannheim, K. A1 - Marcha, M. J. A1 - Marciano, A. A1 - Marcote, B. A1 - Mariotti, M. A1 - Marisaldi, M. A1 - McBreen, S. A1 - Mereghetti, S. A1 - Merle, A. A1 - Mignani, R. A1 - Minervini, G. A1 - Moiseev, A. A1 - Morselli, A. A1 - Moura, F. A1 - Nakazawa, K. A1 - Nava, L. A1 - Nieto, D. A1 - Orienti, M. A1 - Orio, M. A1 - Orlando, E. A1 - Orleanski, P. A1 - Paiano, S. A1 - Paoletti, R. A1 - Papitto, A. A1 - Pasquato, M. A1 - Patricelli, B. A1 - Perez-Garcia, M. A. A1 - Persic, M. A1 - Piano, G. A1 - Pichel, A. A1 - Pimenta, M. A1 - Pittori, C. A1 - Porter, T. A1 - Poutanen, J. A1 - Prandini, E. A1 - Prantzos, N. A1 - Produit, N. A1 - Profumo, S. A1 - Queiroz, F. S. A1 - Raino, S. A1 - Raklev, A. A1 - Regis, M. A1 - Reichardt, I. A1 - Rephaeli, Y. A1 - Rico, J. A1 - Rodejohann, W. A1 - Fernandez, G. Rodriguez A1 - Roncadelli, M. A1 - Roso, L. A1 - Rovero, A. A1 - Ruffini, R. A1 - Sala, G. A1 - Sanchez-Conde, M. A. A1 - Santangelo, Andrea A1 - Parkinson, P. Saz A1 - Sbarrato, T. A1 - Shearer, A. A1 - Shellard, R. A1 - Short, K. A1 - Siegert, T. A1 - Siqueira, C. A1 - Spinelli, P. A1 - Stamerra, A. A1 - Starrfield, S. A1 - Strong, A. A1 - Strumke, I. A1 - Tavecchio, F. A1 - Taverna, R. A1 - Terzic, T. A1 - Thompson, D. J. A1 - Tibolla, O. A1 - Torres, D. F. A1 - Turolla, R. A1 - Ulyanov, A. A1 - Ursi, A. A1 - Vacchi, A. A1 - Van den Abeele, J. A1 - Vankova-Kirilovai, G. A1 - Venter, C. A1 - Verrecchia, F. A1 - Vincent, P. A1 - Wang, X. A1 - Weniger, C. A1 - Wu, X. A1 - Zaharijas, G. A1 - Zampieri, L. A1 - Zane, S. A1 - Zimmer, S. A1 - Zoglauer, A. T1 - Science with e-ASTROGAM A space mission for MeV-GeV gamma-ray astrophysics JF - Journal of High Energy Astrophysics Y1 - 2018 U6 - https://doi.org/10.1016/j.jheap.2018.07.001 SN - 2214-4048 SN - 2214-4056 VL - 19 SP - 1 EP - 106 PB - Elsevier CY - Amsterdam ER - TY - CHAP A1 - Tatischeff, V. A1 - De Angelis, A. A1 - Tavani, M. A1 - Grenier, I. A1 - Oberlack, U. A1 - Hanlon, L. A1 - Walter, R. A1 - Argan, A. A1 - von Ballmoos, P. A1 - Bulgarelli, A. A1 - Donnarumma, I. A1 - Hernanz, Margarita A1 - Kuvvetli, I. A1 - Mallamaci, M. A1 - Pearce, M. A1 - Zdziarski, A. A1 - Aboudan, A. A1 - Ajello, M. A1 - Ambrosi, G. A1 - Bernard, D. A1 - Bernardini, E. A1 - Bonvicini, V. A1 - Brogna, A. A1 - Branchesi, M. A1 - Budtz-Jorgensen, C. A1 - Bykov, A. A1 - Campana, R. A1 - Cardillo, M. A1 - Ciprini, S. A1 - Coppi, P. A1 - Cumani, P. A1 - da Silva, R. M. Curado A1 - De Martino, D. A1 - Diehl, R. A1 - Doro, M. A1 - Fioretti, V. A1 - Funk, S. A1 - Ghisellini, G. A1 - Giordano, F. A1 - Grove, J. E. A1 - Hamadache, C. A1 - Hartmann, D. H. A1 - Hayashida, M. A1 - Isern, J. A1 - Kanbach, G. A1 - Kiener, J. A1 - Knodlseder, J. A1 - Labanti, C. A1 - Laurent, P. A1 - Leising, M. A1 - Limousin, O. A1 - Longo, F. A1 - Mannheim, K. A1 - Marisaldi, M. A1 - Martinez, M. A1 - Mazziotta, M. N. A1 - McEnery, J. E. A1 - Mereghetti, S. A1 - Minervini, G. A1 - Moiseev, A. A1 - Morselli, A. A1 - Nakazawa, K. A1 - Orleanski, P. A1 - Paredes, J. M. A1 - Patricelli, B. A1 - Peyre, J. A1 - Piano, G. A1 - Pohl, Martin A1 - Rando, R. A1 - Roncadelli, M. A1 - Tavecchio, F. A1 - Thompson, D. J. A1 - Turolla, R. A1 - Ulyanov, A. A1 - Vacchi, A. A1 - Wu, X. A1 - Zoglauer, A. ED - DenHerder, JWA Nikzad T1 - The e-ASTROGAM gamma-ray space observatory for the multimessenger astronomy of the 2030s T2 - Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray N2 - e-ASTROGAM is a concept for a breakthrough observatory space mission carrying a gamma-ray telescope dedicated to the study of the non-thermal Universe in the photon energy range from 0.15 MeV to 3 GeV. The lower energy limit can be pushed down to energies as low as 30 keV for gamma-ray burst detection with the calorimeter. The mission is based on an advanced space-proven detector technology, with unprecedented sensitivity, angular and energy resolution, combined with remarkable polarimetric capability. Thanks to its performance in the MeV-GeV domain, substantially improving its predecessors, e-ASTROGAM will open a new window on the non-thermal Universe, making pioneering observations of the most powerful Galactic and extragalactic sources, elucidating the nature of their relativistic outflows and their effects on the surroundings. With a line sensitivity in the MeV energy range one to two orders of magnitude better than previous and current generation instruments, e-ASTROGAM will determine the origin of key isotopes fundamental for the understanding of supernova explosion and the chemical evolution of our Galaxy. The mission will be a major player of the multiwavelength, multimessenger time-domain astronomy of the 2030s, and provide unique data of significant interest to a broad astronomical community, complementary to powerful observatories such as LISA, LIGO, Virgo, KAGRA, the Einstein Telescope and the Cosmic Explorer, IceCube-Gen2 and KM3NeT, SKA, ALMA, JWST, E-ELT, LSST, Athena, and the Cherenkov Telescope Array. KW - Gamma-ray astronomy KW - time-domain astronomy KW - space mission KW - Compton and pair creation telescope KW - gamma-ray polarization KW - high-energy astrophysical phenomena Y1 - 2018 SN - 978-1-5106-1952-4 U6 - https://doi.org/10.1117/12.2315151 SN - 0277-786X SN - 1996-756X VL - 10699 PB - SPIE - The International Society for Optical Engineering CY - Bellingham ER - TY - JOUR A1 - De Angelis, A. A1 - Tatischeff, V. A1 - Tavani, M. A1 - Oberlack, U. A1 - Grenier, I. A1 - Hanloni, L. A1 - Walter, R. A1 - Argan, A. A1 - Von Ballmoos, P. A1 - Bulgarelli, A. A1 - Donnarumma, I. A1 - Hernanz, M. A1 - Kuvvetli, I. A1 - Pearce, M. A1 - Zdziarski, A. A1 - Aboudan, A. A1 - Ajello, M. A1 - Ambrosi, G. A1 - Bernard, D. A1 - Bernardini, E. A1 - Bonvicini, V. A1 - Brogna, A. A1 - Branchesi, M. A1 - Budtz-Jorgensen, C. A1 - Bykov, A. M. A1 - Campana, R. A1 - Cardillo, M. A1 - Coppi, P. A1 - De Martino, D. A1 - Diehl, R. A1 - Doro, M. A1 - Fioretti, V. A1 - Funk, S. A1 - Ghisellini, G. A1 - Grove, E. A1 - Hamadache, C. A1 - Hartmann, D. H. A1 - Hayashida, M. A1 - Isern, J. A1 - Kanbach, G. A1 - Kiener, J. A1 - Knodlseder, J. A1 - Labanti, C. A1 - Laurent, P. A1 - Limousin, O. A1 - Longo, F. A1 - Mannheim, K. A1 - Marisaldi, M. A1 - Martinez, M. A1 - Mazziotta, Mario Nicola A1 - McEnery, J. A1 - Mereghetti, S. A1 - Minervini, G. A1 - Moiseev, A. A1 - Morselli, A. A1 - Nakazawa, K. A1 - Orleanski, P. A1 - Paredes, J. M. A1 - Patricelli, B. A1 - Pevre, J. A1 - Piano, G. A1 - Pohl, Martin A1 - Ramarijaona, H. A1 - Rando, R. A1 - Reichardt, I. A1 - Roncadelli, M. A1 - Silva, R. A1 - Tavecchio, F. A1 - Thompson, D. J. A1 - Turolla, R. A1 - Ulyanov, A. A1 - Vacchi, A. A1 - Wu, X. A1 - Zoglauer, A. T1 - The e-ASTROGAM mission Exploring the extreme Universe with gamma rays in the MeV - GeV range JF - Experimental astronomy : an international journal on astronomical instrumentation and data analysis N2 - e-ASTROGAM (‘enhanced ASTROGAM’) is a breakthrough Observatory space mission, with a detector composed by a Silicon tracker, a calorimeter, and an anticoincidence system, dedicated to the study of the non-thermal Universe in the photon energy range from 0.3 MeV to 3 GeV – the lower energy limit can be pushed to energies as low as 150 keV, albeit with rapidly degrading angular resolution, for the tracker, and to 30 keV for calorimetric detection. The mission is based on an advanced space-proven detector technology, with unprecedented sensitivity, angular and energy resolution, combined with polarimetric capability. Thanks to its performance in the MeV-GeV domain, substantially improving its predecessors, e-ASTROGAM will open a new window on the non-thermal Universe, making pioneering observations of the most powerful Galactic and extragalactic sources, elucidating the nature of their relativistic outflows and their effects on the surroundings. With a line sensitivity in the MeV energy range one to two orders of magnitude better than previous generation instruments, e-ASTROGAM will determine the origin of key isotopes fundamental for the understanding of supernova explosion and the chemical evolution of our Galaxy. The mission will provide unique data of significant interest to a broad astronomical community, complementary to powerful observatories such as LIGO-Virgo-GEO600-KAGRA, SKA, ALMA, E-ELT, TMT, LSST, JWST, Athena, CTA, IceCube, KM3NeT, and the promise of eLISA. KW - High-Energy Gamma-Ray Astronomy KW - High-Energy Astrophysics KW - Nuclear Astrophysics KW - Compton and Pair Creation Telescope KW - Gamma-Ray Bursts KW - Active Galactic Nuclei KW - Jets KW - Outflows KW - Multiwavelength Observations of the Universe KW - Counterparts of gravitational waves KW - Fermi KW - Dark Matter KW - Nucleosynthesis KW - Early Universe KW - Supernovae KW - Cosmic Rays KW - Cosmic Antimatter Y1 - 2017 U6 - https://doi.org/10.1007/s10686-017-9533-6 SN - 0922-6435 SN - 1572-9508 VL - 44 SP - 25 EP - 82 PB - Springer CY - Dordrecht ER - TY - JOUR A1 - Burleigh, J. Gordon A1 - Bansal, Mukul S. A1 - Eulenstein, Oliver A1 - Hartmann, Stefanie A1 - Wehe, Andre A1 - Vision, Todd J. T1 - Genome-Scale Phylogenetics inferring the plant tree of life from 18,896 gene trees JF - Systematic biology N2 - Phylogenetic analyses using genome-scale data sets must confront incongruence among gene trees, which in plants is exacerbated by frequent gene duplications and losses. Gene tree parsimony (GTP) is a phylogenetic optimization criterion in which a species tree that minimizes the number of gene duplications induced among a set of gene trees is selected. The run time performance of previous implementations has limited its use on large-scale data sets. We used new software that incorporates recent algorithmic advances to examine the performance of GTP on a plant data set consisting of 18,896 gene trees containing 510,922 protein sequences from 136 plant taxa (giving a combined alignment length of >2.9 million characters). The relationships inferred from the GTP analysis were largely consistent with previous large-scale studies of backbone plant phylogeny and resolved some controversial nodes. The placement of taxa that were present in few gene trees generally varied the most among GTP bootstrap replicates. Excluding these taxa either before or after the GTP analysis revealed high levels of phylogenetic support across plants. The analyses supported magnoliids sister to a eudicot + monocot clade and did not support the eurosid I and II clades. This study presents a nuclear genomic perspective on the broad-scale phylogenic relationships among plants, and it demonstrates that nuclear genes with a history of duplication and loss can be phylogenetically informative for resolving the plant tree of life. KW - Gene tree-species tree reconciliation KW - gene tree parsimony KW - plant phylogeny KW - phylogenomics Y1 - 2011 U6 - https://doi.org/10.1093/sysbio/syq072 SN - 1063-5157 VL - 60 IS - 2 SP - 117 EP - 125 PB - Oxford Univ. Press CY - Oxford ER - TY - JOUR A1 - Bonizzoni, Mariangela A1 - Bourjea, Jerome A1 - Chen, Bin A1 - Crain, B. J. A1 - Cui, Liwang A1 - Fiorentino, V. A1 - Hartmann, Stefanie A1 - Hendricks, S. A1 - Ketmaier, Valerio A1 - Ma, Xiaoguang A1 - Muths, Delphine A1 - Pavesi, Laura A1 - Pfautsch, Simone A1 - Rieger, M. A. A1 - Santonastaso, T. A1 - Sattabongkot, Jetsumon A1 - Taron, C. H. A1 - Taron, D. J. A1 - Tiedemann, Ralph A1 - Yan, Guiyun A1 - Zheng, Bin A1 - Zhong, Daibin T1 - Permanent genetic resources added to molecular ecology resources database 1 April 2011-31 May 2011 JF - Molecular ecology resources N2 - This article documents the addition of 92 microsatellite marker loci to the Molecular Ecology Resources Database. Loci were developed for the following species: Anopheles minimus, An. sinensis, An. dirus, Calephelis mutica, Lutjanus kasmira, Murella muralis and Orchestia montagui. These loci were cross-tested on the following species: Calephelis arizonensi, Calephelis borealis, Calephelis nemesis, Calephelis virginiensis and Lutjanus bengalensis. Y1 - 2011 U6 - https://doi.org/10.1111/j.1755-0998.2011.03046.x SN - 1755-098X VL - 11 IS - 5 SP - 935 EP - 936 PB - Wiley-Blackwell CY - Malden ER - TY - JOUR A1 - Cazelles, R. A1 - Lalaoui, N. A1 - Hartmann, Tobias A1 - Leimkühler, Silke A1 - Wollenberger, Ursula A1 - Antonietti, Markus A1 - Cosnier, S. T1 - Ready to use bioinformatics analysis as a tool to predict immobilisation strategies for protein direct electron transfer (DET) JF - Polymer : the international journal for the science and technology of polymers KW - Bioinformatic KW - Bioelectrocatalysis KW - Electron transfer KW - Dehydrogenase KW - Nicotinamide Y1 - 2016 U6 - https://doi.org/10.1016/j.bios.2016.04.078 SN - 0956-5663 SN - 1873-4235 VL - 85 SP - 90 EP - 95 PB - Elsevier CY - Oxford ER - TY - JOUR A1 - Hilbert, Anja A1 - Buerger, Arne A1 - Hartmann, Andrea S. A1 - Spenner, Kristina A1 - Czaja, Julia A1 - Warschburger, Petra T1 - Psychometric evaluation of the eating disorder examination adapted for children JF - European eating disorders review : the professional journal of the Eating Disorders Associatio N2 - The Eating Disorder Examination adapted for children (ChEDE) is the child version of the semi-structured gold standard eating disorder interview for adults. This study was a comprehensive test statistic evaluation of the German ChEDE in a large sample of children and adolescents with anorexia nervosa, binge eating disorder, loss of control eating, overweight and obesity, as well as non-eating-disordered and chronically ill control probands (n=352). Excellent inter-rater reliability, adequate internal consistency and satisfactory stability of ChEDE indicators were demonstrated. ChEDE indicators discriminated between diverse forms of eating and weight disturbances and normative eating and were significantly correlated with conceptually related measures. Factorial validity was not convincing; a brief eight-item scale showed the best fit. Item statistics were mostly acceptable. Overall, the ChEDE's German translation reliably and validly assesses psychopathology across the eating and weight disorder spectrum and facilitates international comparison of eating disorder research. KW - clinical interview KW - children and adolescents KW - eating disorders KW - psychometric properties Y1 - 2013 U6 - https://doi.org/10.1002/erv.2221 SN - 1072-4133 VL - 21 IS - 4 SP - 330 EP - 339 PB - Wiley-Blackwell CY - Hoboken ER - TY - JOUR A1 - Dietze, Elisabeth A1 - Maussion, F. A1 - Ahlborn, M. A1 - Diekmann, Bernhard A1 - Hartmann, K. A1 - Henkel, K. A1 - Kasper, T. A1 - Lockot, G. A1 - Opitz, S. A1 - Haberzettl, T. T1 - Sediment transport processes across the Tibetan Plateau inferred from robust grain-size end members in lake sediments JF - Climate of the past : an interactive open access journal of the European Geosciences Union N2 - Grain-size distributions offer powerful proxies of past environmental conditions that are related to sediment sorting processes. However, they are often of multimodal character because sediments can get mixed during deposition. To facilitate the use of grain size as palaeoenvironmental proxy, this study aims to distinguish the main detrital processes that contribute to lacustrine sedimentation across the Tibetan Plateau using grain-size end-member modelling analysis. Between three and five robust grain-size end-member subpopulations were distinguished at different sites from similarly-likely end-member model runs. Their main modes were grouped and linked to common sediment transport and depositional processes that can be associated with contemporary Tibetan climate (precipitation patterns and lake ice phenology, gridded wind and shear stress data from the High Asia Reanalysis) and local catchment configurations. The coarse sands and clays with grain-size modes > 250 mu m and < 2 mu m were probably transported by fluvial processes. Aeolian sands (similar to 200 mu m) and coarse local dust (similar to 60 mu m), transported by saltation and in near-surface suspension clouds, are probably related to occasional westerly storms in winter and spring. Coarse regional dust with modes similar to 25 mu m may derive from near-by sources that keep in longer term suspension. The continuous background dust is differentiated into two robust end members (modes: 5-10 and 2-5 mu m) that may represent different sources, wind directions and/or sediment trapping dynamics from long-range, upper-level westerly and episodic northerly wind transport. According to this study grain-size end members of only fluvial origin contribute small amounts to mean Tibetan lake sedimentation (19 +/- 5%), whereas local to regional aeolian transport and background dust deposition dominate the clastic sedimentation in Tibetan lakes (contributions: 42 +/- 14% and 51 +/- 11%). However, fluvial and alluvial reworking of aeolian material from nearby slopes during summer seems to limit end-member interpretation and should be cross-checked with other proxy information. If not considered as a stand-alone proxy, a high transferability to other regions and sediment archives allows helpful reconstructions of past sedimentation history. Y1 - 2014 U6 - https://doi.org/10.5194/cp-10-91-2014 SN - 1814-9324 SN - 1814-9332 VL - 10 IS - 1 SP - 91 EP - 106 PB - Copernicus CY - Göttingen ER - TY - JOUR A1 - Hartmann, Matthias A1 - Martarelli, Corinna S. A1 - Mast, Fred W. A1 - Stocker, Kurt T1 - Eye movements during mental time travel follow a diagonal line JF - Consciousness and cognition N2 - Recent research showed that past events are associated with the back and left side, whereas future events are associated with the front and right side of space. These spatial-temporal associations have an impact on our sensorimotor system: thinking about one's past and future leads to subtle body sways in the sagittal dimension of space (Miles, Nind, & Macrae, 2010). In this study we investigated whether mental time travel leads to sensorimotor correlates in the horizontal dimension of space. Participants were asked to mentally displace themselves into the past or future while measuring their spontaneous eye movements on a blank screen. Eye gaze was directed more rightward and upward when thinking about the future than when thinking about the past. Our results provide further insight into the spatial nature of temporal thoughts, and show that not only body, but also eye movements follow a (diagonal) "time line" during mental time travel. (C) 2014 Elsevier Inc. All rights reserved. KW - Mental time travel KW - Eye movements KW - Mental time line KW - Spatial-temporal association KW - Future KW - Past KW - Embodied cognition KW - Metaphors KW - Mental number line Y1 - 2014 U6 - https://doi.org/10.1016/j.concog.2014.09.007 SN - 1053-8100 SN - 1090-2376 VL - 30 SP - 201 EP - 209 PB - Elsevier CY - San Diego ER - TY - JOUR A1 - Send, Sebastian A1 - Abboud, Ali A1 - Leitenberger, Wolfram A1 - Weiss, Manfred S. A1 - Hartmann, Robert A1 - Strüder, Lothar A1 - Pietsch, Ullrich T1 - Analysis of polycrystallinity in hen egg-white lysozyme using a pnCCD JF - Journal of applied crystallography N2 - A crystal of hen egg-white lysozyme was analyzed by means of energy-dispersive X-ray Laue diffraction with white synchrotron radiation at 2.7 angstrom resolution using a pnCCD detector. From Laue spots measured in a single exposure of the arbitrarily oriented crystal, the lattice constants of the tetragonal unit cell could be extracted with an accuracy of about 2.5%. Scanning across the sample surface, Laue images with split reflections were recorded at various positions. The corresponding diffraction patterns were generated by two crystalline domains with a tilt of about 1 degrees relative to each other. The obtained results demonstrate the potential of the pnCCD for fast X-ray screening of crystals of macromolecules or proteins prior to conventional X-ray structure analysis. The described experiment can be automatized to quantitatively characterize imperfect single crystals or polycrystals. Y1 - 2012 U6 - https://doi.org/10.1107/S0021889812015038 SN - 0021-8898 VL - 45 IS - 6 SP - 517 EP - 522 PB - Wiley-Blackwell CY - Hoboken ER - TY - JOUR A1 - Kusterer, D. -J. A1 - Nagel, T. A1 - Hartmann, S. A1 - Werner, K. A1 - Feldmeier, Achim T1 - Monte Carlo radiation transfer in CV disk winds: application to the AM CVn prototype JF - Astronomy and astrophysics : an international weekly journal N2 - Context. AMCVn systems are ultracompact binaries in which a (semi-) degenerate star transfers helium-dominated matter onto a white dwarf. They are effective gravitational-wave emitters and potential progenitors of Type Ia supernovae. Aims. To understand the evolution of AMCVn systems it is necessary to determine their mass-loss rate through their radiation-driven accretion-disk wind. We constructed models to perform quantitative spectroscopy of P Cygni line profiles that were detected in UV spectra. Methods. We performed 2.5D Monte Carlo radiative transfer calculations in hydrodynamic wind structures by making use of realistic NLTE spectra from the accretion disk and by accounting for the white dwarf as an additional photon source. Results. We present first results from calculations in which LTE opacities are used in the wind model. A comparison with UV spectroscopy of the AMCVn prototype shows that the modeling procedure is potentially a good tool for determining mass-loss rates and abundances of trace metals in the helium-rich wind. KW - radiative transfer KW - stars: winds, outflows KW - stars: individual: AM CVn KW - accretion, accretion disks Y1 - 2014 U6 - https://doi.org/10.1051/0004-6361/201321438 SN - 0004-6361 SN - 1432-0746 VL - 561 PB - EDP Sciences CY - Les Ulis ER - TY - CHAP A1 - Hartmann, Anika M. A1 - Kandil, Farid I. A1 - Steckhan, Nico A1 - Häupl, Thomas A1 - Kessler, Christian S. A1 - Michalsen, Andreas A1 - Koppold-Liebscher, Daniela A. T1 - Rheumatoid arthritis benefits from fasting and plant-based diet: an exploratory randomized controlled trial (NUTRIFAST) T2 - Annals of the rheumatic diseases Y1 - 2022 U6 - https://doi.org/10.1136/annrheumdis-2022-eular.452 SN - 0003-4967 SN - 1468-2060 VL - 81 SP - 558 EP - 559 PB - BMJ Publishing Group CY - London ER -