@article{31705, author = {{Palepu, A and Premanathan, S and Azhar, F and Vendrame, M and Loddenkemper, T and Reinsberger, Claus and Kreiman, G and Parkerson, KA and Sarma, S and Anderson, WS}}, issn = {{2375-7477}}, journal = {{Annu Int Conf IEEE Eng Med Biol Soc}}, pages = {{299--302}}, title = {{{Automating Interictal Spike Detection: Revisiting A Simple Threshold Rule.}}}, volume = {{2018}}, year = {{2018}}, } @article{31715, author = {{Scheer, V and Ramme, K and Reinsberger, Claus and Heitkamp, HC}}, issn = {{0172-4622}}, journal = {{Int J Sports Med}}, number = {{6}}, pages = {{456--461}}, title = {{{VO2max Testing in Trail Runners: Is There a Specific Exercise Test Protocol?}}}, volume = {{39}}, year = {{2018}}, } @article{31728, author = {{Gölz, C and Voelcker-Rehage, C and Mora, K and Reuter, EM and Godde, B and Dellnitz, M and Reinsberger, Claus and Vieluf, S}}, issn = {{1664-042x}}, journal = {{Front Physiol}}, pages = {{1540}}, title = {{{Improved Neural Control of Movements Manifests in Expertise-Related Differences in Force Output and Brain Network Dynamics.}}}, volume = {{9}}, year = {{2018}}, } @article{36382, author = {{Meyer, Tim and Reinsberger, Claus}}, issn = {{2473-3938}}, journal = {{Science and Medicine in Football}}, keywords = {{Tourism, Leisure and Hospitality Management, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine}}, number = {{1}}, pages = {{1--2}}, publisher = {{Informa UK Limited}}, title = {{{Do head injuries and headers in football lead to future brain damage? A discussion lacking appropriate scientific diligence}}}, doi = {{10.1080/24733938.2017.1416950}}, volume = {{2}}, year = {{2018}}, } @inbook{38110, author = {{Reinsberger, Claus}}, booktitle = {{Handbuch Schädelhirntrauma}}, isbn = {{9783110372342}}, title = {{{Gehirnerschütterung / Concussion}}}, year = {{2018}}, } @article{34928, author = {{Radtke, Sabine}}, journal = {{Leipziger Sportwissenschaftliche Beiträge}}, number = {{1}}, pages = {{160--194}}, title = {{{Inklusion im außerschulischen Sport: eine Bestandsaufnahme der Maßnahmen im organisierten Sport sowie des Forschungsstands neun Jahre nach Ratifizierung der UN-BRK in Deutschland.}}}, volume = {{59}}, year = {{2018}}, } @inbook{34926, author = {{Bauer, K. and Biermann, Marie and Braga, Í. N. and Gonzalez, R. H.}}, booktitle = {{Projetos Sociais Para Crianças e Adolescentes.}}, editor = {{Saldanha, D. F. and Gonzalez, R. H. }}, pages = {{169--190}}, publisher = {{Editora Garcia}}, title = {{{Possibilidades e desafios de um apoio científico para projetos des desporto social no campo de trabalho, “Desporto para o Desenvolvimento”.}}}, year = {{2018}}, } @article{34927, author = {{Radtke, Sabine}}, journal = {{Schüler}}, pages = {{110--111}}, title = {{{"Heterogen war mein Kurs auch schon ohne Peter". Unterricht im Kontext von Inklusion.}}}, volume = {{1}}, year = {{2018}}, } @unpublished{42048, abstract = {{Long range quantum communication and quantum information processing require the development of light-matter interfaces for distributed quantum networks. Even though photons are ideal candidates for network links to transfer quantum information, the system of choice for the realization of quantum nodes has not been identified yet. Ideally, one strives for a hybrid network architecture, which will consist of different quantum systems, combining the strengths of each system. However, interfacing different quantum systems via photonic channels remains a major challenge because a detailed understanding of the underlying light-matter interaction is missing. Here, we show the coherent manipulation of single photons generated on-demand from a semiconductor quantum dot using a rubidium vapor quantum memory, forming a hybrid quantum network. We demonstrate the engineering of the photons' temporal wave function using four-level atoms and the creation of a new type of electromagnetic induced transparency for quantum dot photons on resonance with rubidium transitions. Given the short lifetime of our quantum dot transition the observed dynamics cannot be explained in the established steady-state picture. Our results play a pivotal role in understanding quantum light-matter interactions at short time scales. These findings demonstrate a fundamental active node to construct future large-scale hybrid quantum networks.}}, author = {{Schweickert, Lucas and Jöns, Klaus D. and Namazi, Mehdi and Cui, Guodong and Lettner, Thomas and Zeuner, Katharina D. and Montaña, Lara Scavuzzo and Silva, Saimon Filipe Covre da and Reindl, Marcus and Huang, Huiying and Trotta, Rinaldo and Rastelli, Armando and Zwiller, Val and Figueroa, Eden}}, booktitle = {{arXiv:1808.05921}}, title = {{{Electromagnetically Induced Transparency of On-demand Single Photons in a Hybrid Quantum Network}}}, year = {{2018}}, } @article{25912, abstract = {{It is possible to infiltrate a guest species selectively in one pore system of bimodal mesoporous CMK-5 carbon by an optimized nanocasting procedure. The selective filling has a drastic impact on the low-angle X-ray diffraction pattern of this novel class of materials. The structures of CMK-5, CMK-5 composite materials (sulfur and SnO2 as guest species), and CMK-3 carbon were simulated to investigate the influence of the pore filling with different guest species on the diffraction pattern and compared with experimental results. Additionally, the impact of structural defects is taken into account. The nature of the guest species strongly influences the relative intensity of the diffraction peaks. It turns out that the diffraction patterns of sulfur-carbon composite materials are nearly identical as those of CMK-3 carbon, which is attributed to a similar electron density of carbon and sulfur. Thus, sulfur is an ideal guest species to investigate the selective pore filling in CMK-5 carbon.}}, author = {{Weinberger, Christian and Hartmann, Marc and Ren, Sai and Sandberg, Thomas and Smått, Jan-Henrik and Tiemann, Michael}}, issn = {{1387-1811}}, journal = {{Microporous and Mesoporous Materials}}, pages = {{24--31}}, title = {{{Selective pore filling of mesoporous CMK-5 carbon studied by XRD: Comparison between theoretical simulations and experimental results}}}, doi = {{10.1016/j.micromeso.2018.02.035}}, year = {{2018}}, } @article{25910, abstract = {{We describe the synthesis of mesoporous Al2O3 and MgO layers on silicon wafer substrates by using poly(dimethylacrylamide) hydrogels as porogenic matrices. Hydrogel films are prepared by spreading the polymer through spin-coating, followed by photo-cross-linking and anchoring to the substrate surface. The metal oxides are obtained by swelling the hydrogels in the respective metal nitrate solutions and subsequent thermal conversion. Combustion of the hydrogel results in mesoporous metal oxide layers with thicknesses in the μm range and high specific surface areas up to 558 m2∙g−1. Materials are characterized by SEM, FIB ablation, EDX, and Kr physisorption porosimetry.}}, author = {{Chen, Zimei and Kuckling, Dirk and Tiemann, Michael}}, issn = {{2079-4991}}, journal = {{Nanomaterials}}, title = {{{Porous Aluminum Oxide and Magnesium Oxide Films Using Organic Hydrogels as Structure Matrices}}}, doi = {{10.3390/nano8040186}}, year = {{2018}}, } @article{25913, abstract = {{Ordered mesoporous CMK-5 carbon exhibits two distinct pore systems that can be modified individually. This work demonstrates how one of the pore systems can be selectively filled with elemental sulfur, while the other pore system remains empty. The resulting sulfur–carbon composite material with high residual porosity can be used as the cathode material in lithium–sulfur battery cells. We present a systematic investigation of the loading of CMK-5 carbon with variable relative amounts of sulfur and compare the results to the preparation of SnO2 (as well as TiO2, Mn2O3/Mn3O4, NiO) nanoparticle-loaded CMK-5 carbon.}}, author = {{Weinberger, Christian and Ren, Sai and Hartmann, Marc and Wagner, Thorsten and Karaman, Didem. Ş. and Rosenholm, Jessica M. and Tiemann, Michael}}, issn = {{2574-0970}}, journal = {{ACS Applied Nano Materials}}, pages = {{455--462}}, title = {{{Bimodal Mesoporous CMK-5 Carbon: Selective Pore Filling with Sulfur and SnO2 for Lithium Battery Electrodes}}}, doi = {{10.1021/acsanm.7b00307}}, year = {{2018}}, } @article{25909, abstract = {{Organic polymer-hydrogels are known to be capable of directing the nucleation and growth of inorganic materials, such as silica, metal oxides, apatite or metal chalcogenides. This approach can be exploited in the synthesis of materials that exhibit defined nanoporosity. When the organic polymer-based hydrogel is incorporated in the inorganic product, a composite is formed from which the organic component may be selectively removed, yielding nanopores in the inorganic product. Such porogenic impact resembles the concept of using soft or hard templates for porous materials. This micro-review provides a survey of select examples from the literature.}}, author = {{Weinberger, Christian and Kuckling, Dirk and Tiemann, Michael}}, issn = {{2310-2861}}, journal = {{Gels}}, title = {{{Hydrogels as Porogens for Nanoporous Inorganic Materials}}}, doi = {{10.3390/gels4040083}}, year = {{2018}}, } @article{32439, author = {{Anders, Phillipp and Lehmann, Tim and Müller, Helen and Grønvik, Karoline B. and Skjæret-Maroni, Nina and Baumeister, Jochen and Vereijken, Beatrix}}, issn = {{1662-5153}}, journal = {{Frontiers in Behavioral Neuroscience}}, keywords = {{Behavioral Neuroscience, Cognitive Neuroscience, Neuropsychology and Physiological Psychology}}, publisher = {{Frontiers Media SA}}, title = {{{Exergames Inherently Contain Cognitive Elements as Indicated by Cortical Processing}}}, doi = {{10.3389/fnbeh.2018.00102}}, volume = {{12}}, year = {{2018}}, } @inproceedings{36924, author = {{Lehmann, Tim and Paschen, Linda and Baumeister, Jochen}}, location = {{Hamburg}}, pages = {{161–219 }}, title = {{{Comparison of postural stability in the ACL-deficient and reconstructed leg: A meta analysis}}}, volume = {{34}}, year = {{2018}}, } @article{26305, author = {{Bohmann, M. and Tiedau, J. and Bartley, Tim and Sperling, Jan and Silberhorn, Christine and Vogel, W.}}, issn = {{0031-9007}}, journal = {{Physical Review Letters}}, title = {{{Incomplete Detection of Nonclassical Phase-Space Distributions}}}, doi = {{10.1103/physrevlett.120.063607}}, year = {{2018}}, } @inproceedings{40388, author = {{Luo, Kai Hong and Brauner, Sebastian and Eigner, Christof and Sharapova, Polina and Ricken, Raimund and Meier, Torsten and Herrmann, Harald and Silberhorn, Christine}}, booktitle = {{Conference on Lasers and Electro-Optics}}, isbn = {{978-1-943580-42-2}}, location = {{San Jose, California United States}}, publisher = {{OSA}}, title = {{{Monolithically Integrated Hong-Ou-Mandel Experiment in LiNbO3}}}, doi = {{10.1364/cleo_qels.2018.fm1g.3}}, year = {{2018}}, } @inbook{43193, abstract = {{Short laser pulses are able to generate material excitations with a well-defined phase which is imposed by the optical excitation source. The generated coherent superposition state be described as an optical polarization which exists only in non-equilibrium situations. The coherence, i.e., the phase relations between the optical transitions that originate from the excitation, leads to several interesting effects in time-resolved linear and nonlinear optical spectroscopy. In this article, the basic principles that underlie these coherent transients are introduced and several examples are presented.}}, author = {{Meier, Torsten and Koch, S.W.}}, booktitle = {{Encyclopedia of Modern Optics (Second Edition)}}, editor = {{Guenther, Bob and Steel, Duncan}}, pages = {{264--277}}, publisher = {{Elsevier}}, title = {{{Foundations of Coherent Transients in Semiconductors}}}, doi = {{10.1016/B978-0-12-803581-8.09564-3}}, volume = {{4}}, year = {{2018}}, } @article{4370, author = {{Schmidt, C. and Bühler, J. and Heinrich, A.-C. and Allerbeck, J. and Podzimski, R. and Berghoff, D. and Meier, Torsten and Schmidt, Wolf Gero and Reichl, C. and Wegscheider, W. and Brida, D. and Leitenstorfer, A.}}, issn = {{2041-1723}}, journal = {{Nature Communications}}, number = {{1}}, publisher = {{Springer Nature}}, title = {{{Signatures of transient Wannier-Stark localization in bulk gallium arsenide}}}, doi = {{10.1038/s41467-018-05229-x}}, volume = {{9}}, year = {{2018}}, } @article{10018, author = {{Schmidt, Claudia and Bühler, J. and Heinrich, A.-C. and Allerbeck, J. and Podzimski, R. and Berghoff, Daniel and Meier, Torsten and Schmidt, Wolf Gero and Reichl, C. and Wegscheider, W. and Brida, D. and Leitenstorfer, A.}}, issn = {{2041-1723}}, journal = {{Nature Communications}}, title = {{{Signatures of transient Wannier-Stark localization in bulk gallium arsenide}}}, doi = {{10.1038/s41467-018-05229-x}}, volume = {{9}}, year = {{2018}}, }