@article{ReimersBiczyskoBruceetal., author = {Reimers, Jeffrey R. and Biczysko, Malgorzata and Bruce, Douglas and Coker, David F. and Frankcombe, Terry J. and Hashimoto, Hideki and Hauer, J{\"u}rgen and Jankowiak, Ryszard and Kramer, Tobias and Linnanto, Juha and Mamedov, Fikret and M{\"u}h, Frank and R{\"a}tsep, Margus and Renger, Thomas and Styring, Stenbj{\"o}rn and Wan, Jian and Wang, Zhuan and Wang-Otomo, Zheng-Yu and Weng, Yu-Xiang and Yang, Chunhong and Zhang, Jian-Ping and Freiberg, Arvi and Krausz, Elmars}, title = {Challenges facing an understanding of the nature of low-energy excited states in photosynthesis}, series = {BBA Bioenergetics}, volume = {1857}, journal = {BBA Bioenergetics}, number = {9}, doi = {10.1016/j.bbabio.2016.06.010}, pages = {1627 -- 1640}, abstract = {While the majority of the photochemical states and pathways related to the biological capture of solar energy are now well understood and provide paradigms for artificial device design, additional low-energy states have been discovered in many systems with obscure origins and significance. However, as low-energy states are naively expected to be critical to function, these observations pose important challenges. A review of known properties of low energy states covering eight photochemical systems, and options for their interpretation, are presented. A concerted experimental and theoretical research strategy is suggested and outlined, this being aimed at providing a fully comprehensive understanding.}, language = {en} } @article{KramerKreisbeckRihaetal., author = {Kramer, Tobias and Kreisbeck, Christoph and Riha, Christian and Chiatti, Olivio and Buchholz, Sven and Wieck, Andreas and Reuter, Dirk and Fischer, Saskia}, title = {Thermal energy and charge currents in multi-terminal nanorings}, series = {AIP Advances}, volume = {6}, journal = {AIP Advances}, doi = {10.1063/1.4953812}, pages = {065306}, abstract = {We study in experiment and theory thermal energy and charge transfer close to the quantum limit in a ballistic nanodevice, consisting of multiply connected one-dimensional electron waveguides. The fabricated device is based on an AlGaAs/GaAs heterostructure and is covered by a global top-gate to steer the thermal energy and charge transfer in the presence of a temperature gradient, which is established by a heating current. The estimate of the heat transfer by means of thermal noise measurements shows the device acting as a switch for charge and thermal energy transfer. The wave-packet simulations are based on the multi-terminal Landauer-B{\"u}ttiker approach and confirm the experimental finding of a mode-dependent redistribution of the thermal energy current, if a scatterer breaks the device symmetry.}, language = {en} } @article{KramerNoack, author = {Kramer, Tobias and Noack, Matthias}, title = {On the origin of inner coma structures observed by Rosetta during a diurnal rotation of comet 67P/Churyumov-Gerasimenko}, series = {The Astrophysical Journal Letters}, volume = {823}, journal = {The Astrophysical Journal Letters}, number = {1}, doi = {10.3847/2041-8205/823/1/L11}, pages = {L11}, abstract = {The Rosetta probe around comet 67P/Churyumov-Gerasimenko (67P) reveals an anisotropic dust distribution of the inner coma with jet-like structures. The physical processes leading to jet formation are under debate, with most models for cometary activity focusing on localized emission sources, such as cliffs or terraced regions. Here we suggest, by correlating high-resolution simulations of the dust environment around 67P with observations, that the anisotropy and the background dust density of 67P originate from dust released across the entire sunlit surface of the nucleus rather than from few isolated sources. We trace back trajectories from coma regions with high local dust density in space to the non-spherical nucleus and identify two mechanisms of jet formation: areas with local concavity in either two dimensions or only one. Pits and craters are examples of the first case; the neck region of the bi-lobed nucleus of 67P is an example of the latter case. The conjunction of multiple sources, in addition to dust released from all other sunlit areas, results in a high correlation coefficient (~0.8) of the predictions with observations during a complete diurnal rotation period of 67P.}, language = {en} }