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Simulation and Optimization of Low-Loss Photonic Coupling Structures for TFLN Integrated Circuits for Quantum Applications. 2024.","bibtex":"@inproceedings{Mihaylov_Kress_Scheytt_2024, title={Simulation and Optimization of Low-Loss Photonic Coupling Structures for TFLN Integrated Circuits for Quantum Applications}, author={Mihaylov, Martin Miroslavov and Kress, Christian and Scheytt, J. Christoph}, year={2024} }","ama":"Mihaylov MM, Kress C, Scheytt JC. Simulation and Optimization of Low-Loss Photonic Coupling Structures for TFLN Integrated Circuits for Quantum Applications. In: ; 2024.","chicago":"Mihaylov, Martin Miroslavov, Christian Kress, and J. Christoph Scheytt. “Simulation and Optimization of Low-Loss Photonic Coupling Structures for TFLN Integrated Circuits for Quantum Applications,” 2024.","ieee":"M. M. Mihaylov, C. Kress, and J. C. 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Serino, “Quantenoptisch-unterstütztes Sende-/Empfangssystem.” 2024.","chicago":"Kruse, Stephan, Benjamin Brecht, Christine Silberhorn, and Laura Maria Serino. “Quantenoptisch-Unterstütztes Sende-/Empfangssystem,” 2024.","ama":"Kruse S, Brecht B, Silberhorn C, Serino LM. Quantenoptisch-unterstütztes Sende-/Empfangssystem. 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T.","last_name":"Steiner","first_name":"J. T."},{"last_name":"Meier","orcid":"0000-0001-8864-2072","id":"344","full_name":"Meier, Torsten","first_name":"Torsten"}],"volume":110,"title":"Charge transfer magnetoexcitons in magnetoabsorption spectra of asymmetric type-II double quantum wells","doi":"10.1103/physrevb.110.195306","publication_status":"published","publication_identifier":{"issn":["2469-9950","2469-9969"]},"issue":"19","year":"2024","citation":{"bibtex":"@article{Röder_Gerhard_Fuchs_Stolz_Heimbrodt_Koch_Ngo_Steiner_Meier_2024, title={Charge transfer magnetoexcitons in magnetoabsorption spectra of asymmetric type-II double quantum wells}, volume={110}, DOI={10.1103/physrevb.110.195306}, number={19195306}, journal={Physical Review B}, publisher={American Physical Society (APS)}, author={Röder, J. and Gerhard, M. and Fuchs, C. and Stolz, W. and Heimbrodt, W. and Koch, M. and Ngo, C. and Steiner, J. T. and Meier, Torsten}, year={2024} }","short":"J. Röder, M. Gerhard, C. Fuchs, W. Stolz, W. Heimbrodt, M. Koch, C. Ngo, J.T. Steiner, T. Meier, Physical Review B 110 (2024).","mla":"Röder, J., et al. “Charge Transfer Magnetoexcitons in Magnetoabsorption Spectra of Asymmetric Type-II Double Quantum Wells.” Physical Review B, vol. 110, no. 19, 195306, American Physical Society (APS), 2024, doi:10.1103/physrevb.110.195306.","apa":"Röder, J., Gerhard, M., Fuchs, C., Stolz, W., Heimbrodt, W., Koch, M., Ngo, C., Steiner, J. T., & Meier, T. (2024). Charge transfer magnetoexcitons in magnetoabsorption spectra of asymmetric type-II double quantum wells. Physical Review B, 110(19), Article 195306. https://doi.org/10.1103/physrevb.110.195306","chicago":"Röder, J., M. Gerhard, C. Fuchs, W. Stolz, W. Heimbrodt, M. Koch, C. Ngo, J. T. Steiner, and Torsten Meier. “Charge Transfer Magnetoexcitons in Magnetoabsorption Spectra of Asymmetric Type-II Double Quantum Wells.” Physical Review B 110, no. 19 (2024). https://doi.org/10.1103/physrevb.110.195306.","ieee":"J. Röder et al., “Charge transfer magnetoexcitons in magnetoabsorption spectra of asymmetric type-II double quantum wells,” Physical Review B, vol. 110, no. 19, Art. no. 195306, 2024, doi: 10.1103/physrevb.110.195306.","ama":"Röder J, Gerhard M, Fuchs C, et al. Charge transfer magnetoexcitons in magnetoabsorption spectra of asymmetric type-II double quantum wells. Physical Review B. 2024;110(19). doi:10.1103/physrevb.110.195306"},"intvolume":" 110"},{"doi":"10.1145/3659914.3659925","title":"Enabling Performance Portability for Shallow Water Equations on CPUs, GPUs, and FPGAs with SYCL","date_created":"2024-05-16T13:24:49Z","author":[{"first_name":"Markus","full_name":"Büttner, Markus","last_name":"Büttner"},{"last_name":"Alt","full_name":"Alt, Christoph","id":"100625","first_name":"Christoph"},{"first_name":"Tobias","last_name":"Kenter","id":"3145","full_name":"Kenter, Tobias"},{"first_name":"Harald","full_name":"Köstler, Harald","last_name":"Köstler"},{"id":"16153","full_name":"Plessl, Christian","orcid":"0000-0001-5728-9982","last_name":"Plessl","first_name":"Christian"},{"first_name":"Vadym","last_name":"Aizinger","full_name":"Aizinger, Vadym"}],"publisher":"ACM","date_updated":"2024-11-27T22:50:19Z","citation":{"ama":"Büttner M, Alt C, Kenter T, Köstler H, Plessl C, Aizinger V. Enabling Performance Portability for Shallow Water Equations on CPUs, GPUs, and FPGAs with SYCL. In: Proceedings of the Platform for Advanced Scientific Computing Conference (PASC). ACM; 2024. doi:10.1145/3659914.3659925","ieee":"M. Büttner, C. Alt, T. Kenter, H. Köstler, C. Plessl, and V. Aizinger, “Enabling Performance Portability for Shallow Water Equations on CPUs, GPUs, and FPGAs with SYCL,” 2024, doi: 10.1145/3659914.3659925.","chicago":"Büttner, Markus, Christoph Alt, Tobias Kenter, Harald Köstler, Christian Plessl, and Vadym Aizinger. “Enabling Performance Portability for Shallow Water Equations on CPUs, GPUs, and FPGAs with SYCL.” In Proceedings of the Platform for Advanced Scientific Computing Conference (PASC). ACM, 2024. https://doi.org/10.1145/3659914.3659925.","short":"M. Büttner, C. Alt, T. Kenter, H. Köstler, C. Plessl, V. Aizinger, in: Proceedings of the Platform for Advanced Scientific Computing Conference (PASC), ACM, 2024.","mla":"Büttner, Markus, et al. “Enabling Performance Portability for Shallow Water Equations on CPUs, GPUs, and FPGAs with SYCL.” Proceedings of the Platform for Advanced Scientific Computing Conference (PASC), 11, ACM, 2024, doi:10.1145/3659914.3659925.","bibtex":"@inproceedings{Büttner_Alt_Kenter_Köstler_Plessl_Aizinger_2024, title={Enabling Performance Portability for Shallow Water Equations on CPUs, GPUs, and FPGAs with SYCL}, DOI={10.1145/3659914.3659925}, number={11}, booktitle={Proceedings of the Platform for Advanced Scientific Computing Conference (PASC)}, publisher={ACM}, author={Büttner, Markus and Alt, Christoph and Kenter, Tobias and Köstler, Harald and Plessl, Christian and Aizinger, Vadym}, year={2024} }","apa":"Büttner, M., Alt, C., Kenter, T., Köstler, H., Plessl, C., & Aizinger, V. (2024). Enabling Performance Portability for Shallow Water Equations on CPUs, GPUs, and FPGAs with SYCL. Proceedings of the Platform for Advanced Scientific Computing Conference (PASC), Article 11. https://doi.org/10.1145/3659914.3659925"},"year":"2024","publication_status":"published","quality_controlled":"1","language":[{"iso":"eng"}],"article_number":"11","user_id":"16153","department":[{"_id":"27"},{"_id":"518"}],"project":[{"_id":"52","name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing"}],"_id":"54312","status":"public","type":"conference","publication":"Proceedings of the Platform for Advanced Scientific Computing Conference (PASC)"},{"status":"public","abstract":[{"lang":"eng","text":"AbstractRolling processes of conventional cast Al-Li alloys quickly reach their limits due to relatively poor material formability. This can be overcome by using twin-roll casting to produce thin sheets. Further thermomechanical treatment, including hot or cold rolling, and heat treatment can adjust the mechanical properties of twin-roll cast Al-Li sheets. The whole manufacturing chain requires detailed knowledge of the precipitation and dissolution behavior during heating, soaking and cooling, to purposefully select any process parameters. This study shows the process chain of a twin-roll cast Al–Cu–Li alloy achieving a hardness of around 180 HV1 by adapting the heat treatment parameters for homogenisation, hot rolling and age hardening. Both hardness and microstructure evolution are visualised along the process chain."}],"type":"journal_article","publication":"Production Engineering","language":[{"iso":"eng"}],"user_id":"48411","department":[{"_id":"9"},{"_id":"158"},{"_id":"321"}],"_id":"57540","citation":{"short":"S. Mallow, J. Broer, B. Milkereit, O. Grydin, K.-P. Hoyer, K.-U. Garthe, D. Milaege, V. Boyko, M. Schaper, O. Kessler, Production Engineering (2024).","bibtex":"@article{Mallow_Broer_Milkereit_Grydin_Hoyer_Garthe_Milaege_Boyko_Schaper_Kessler_2024, title={Process chain of a twin-roll cast aluminium-copper-lithium alloy}, DOI={10.1007/s11740-024-01322-x}, journal={Production Engineering}, publisher={Springer Science and Business Media LLC}, author={Mallow, Sina and Broer, Jette and Milkereit, Benjamin and Grydin, Olexandr and Hoyer, Kay-Peter and Garthe, Kai-Uwe and Milaege, Dennis and Boyko, Viktoriya and Schaper, Mirko and Kessler, Olaf}, year={2024} }","mla":"Mallow, Sina, et al. “Process Chain of a Twin-Roll Cast Aluminium-Copper-Lithium Alloy.” Production Engineering, Springer Science and Business Media LLC, 2024, doi:10.1007/s11740-024-01322-x.","apa":"Mallow, S., Broer, J., Milkereit, B., Grydin, O., Hoyer, K.-P., Garthe, K.-U., Milaege, D., Boyko, V., Schaper, M., & Kessler, O. (2024). Process chain of a twin-roll cast aluminium-copper-lithium alloy. Production Engineering. https://doi.org/10.1007/s11740-024-01322-x","ieee":"S. Mallow et al., “Process chain of a twin-roll cast aluminium-copper-lithium alloy,” Production Engineering, 2024, doi: 10.1007/s11740-024-01322-x.","chicago":"Mallow, Sina, Jette Broer, Benjamin Milkereit, Olexandr Grydin, Kay-Peter Hoyer, Kai-Uwe Garthe, Dennis Milaege, Viktoriya Boyko, Mirko Schaper, and Olaf Kessler. “Process Chain of a Twin-Roll Cast Aluminium-Copper-Lithium Alloy.” Production Engineering, 2024. https://doi.org/10.1007/s11740-024-01322-x.","ama":"Mallow S, Broer J, Milkereit B, et al. Process chain of a twin-roll cast aluminium-copper-lithium alloy. Production Engineering. Published online 2024. doi:10.1007/s11740-024-01322-x"},"year":"2024","publication_status":"published","publication_identifier":{"issn":["0944-6524","1863-7353"]},"quality_controlled":"1","doi":"10.1007/s11740-024-01322-x","title":"Process chain of a twin-roll cast aluminium-copper-lithium alloy","date_created":"2024-12-02T13:43:15Z","author":[{"full_name":"Mallow, Sina","last_name":"Mallow","first_name":"Sina"},{"last_name":"Broer","full_name":"Broer, Jette","first_name":"Jette"},{"full_name":"Milkereit, Benjamin","last_name":"Milkereit","first_name":"Benjamin"},{"full_name":"Grydin, Olexandr","id":"43822","last_name":"Grydin","first_name":"Olexandr"},{"last_name":"Hoyer","full_name":"Hoyer, Kay-Peter","id":"48411","first_name":"Kay-Peter"},{"last_name":"Garthe","orcid":"0000-0003-0741-3812","full_name":"Garthe, Kai-Uwe","id":"11199","first_name":"Kai-Uwe"},{"first_name":"Dennis","id":"35461","full_name":"Milaege, Dennis","last_name":"Milaege"},{"last_name":"Boyko","full_name":"Boyko, Viktoriya","first_name":"Viktoriya"},{"first_name":"Mirko","last_name":"Schaper","id":"43720","full_name":"Schaper, Mirko"},{"last_name":"Kessler","full_name":"Kessler, Olaf","first_name":"Olaf"}],"date_updated":"2024-12-02T13:46:39Z","publisher":"Springer Science and Business Media LLC"},{"department":[{"_id":"313"},{"_id":"230"},{"_id":"2"}],"user_id":"254","_id":"57619","language":[{"iso":"pol"}],"publication":"Opto-Electronics Review","type":"journal_article","status":"public","abstract":[{"text":"Ferroelectric liquid crystals exhibiting a chiral smectic C* phase are deposited on z cut periodically poled lithium niobate substrates and investigated by polarized optical microscopy. While the pure substrates placed between crossed polarizers and observed in transmission appear dark, uniformly aligned liquid crystal films deposited on these substrates show alternating domains with varying brightness. This effect can be attributed to the well-known coupling between the direction of the spontaneous polarization and the optical axis in the birefringent ferroelectric smectic C* phase. Quantitative measurements of the tilt angle between the local optical axis and the smectic layer normal confirm antiparallel orientations of spontaneous polarization of the liquid crystal from domain to domain, as expected by the periodic poling of the lithium niobate substrate. This effect provides a valuable non-destructive method of optical inspection of the quality of periodically poled ferroelectric substrates, which plays an important role in achieving quasi-phase-matching in non-linear optical applications.","lang":"eng"}],"date_created":"2024-12-08T14:37:43Z","author":[{"full_name":"Meier, Patrick A.","last_name":"Meier","first_name":"Patrick A."},{"first_name":"Susanne","last_name":"Keuker-Baumann","full_name":"Keuker-Baumann, Susanne"},{"full_name":"Röder, Thorsten","last_name":"Röder","first_name":"Thorsten"},{"last_name":"Herrmann","full_name":"Herrmann, Harald","id":"216","first_name":"Harald"},{"first_name":"Raimund","full_name":"Ricken, Raimund","last_name":"Ricken"},{"id":"26263","full_name":"Silberhorn, Christine","last_name":"Silberhorn","first_name":"Christine"},{"first_name":"Heinz-Siegfried","id":"254","full_name":"Kitzerow, Heinz-Siegfried","last_name":"Kitzerow"}],"publisher":"Polish Academy of Sciences Chancellery","date_updated":"2024-12-08T14:45:39Z","doi":"10.24425/opelre.2024.150611","title":"Optical imaging of ferroelectric domains in periodically poled lithium niobate using ferroelectric liquid crystals","publication_identifier":{"issn":["1896-3757"]},"publication_status":"published","page":"150611-150611","citation":{"ieee":"P. A. Meier et al., “Optical imaging of ferroelectric domains in periodically poled lithium niobate using ferroelectric liquid crystals,” Opto-Electronics Review, pp. 150611–150611, 2024, doi: 10.24425/opelre.2024.150611.","chicago":"Meier, Patrick A., Susanne Keuker-Baumann, Thorsten Röder, Harald Herrmann, Raimund Ricken, Christine Silberhorn, and Heinz-Siegfried Kitzerow. “Optical imaging of ferroelectric domains in periodically poled lithium niobate using ferroelectric liquid crystals.” Opto-Electronics Review, 2024, 150611–150611. https://doi.org/10.24425/opelre.2024.150611.","ama":"Meier PA, Keuker-Baumann S, Röder T, et al. Optical imaging of ferroelectric domains in periodically poled lithium niobate using ferroelectric liquid crystals. Opto-Electronics Review. Published online 2024:150611-150611. doi:10.24425/opelre.2024.150611","short":"P.A. Meier, S. Keuker-Baumann, T. Röder, H. Herrmann, R. Ricken, C. Silberhorn, H.-S. Kitzerow, Opto-Electronics Review (2024) 150611–150611.","mla":"Meier, Patrick A., et al. “Optical imaging of ferroelectric domains in periodically poled lithium niobate using ferroelectric liquid crystals.” Opto-Electronics Review, Polish Academy of Sciences Chancellery, 2024, pp. 150611–150611, doi:10.24425/opelre.2024.150611.","bibtex":"@article{Meier_Keuker-Baumann_Röder_Herrmann_Ricken_Silberhorn_Kitzerow_2024, title={Optical imaging of ferroelectric domains in periodically poled lithium niobate using ferroelectric liquid crystals}, DOI={10.24425/opelre.2024.150611}, journal={Opto-Electronics Review}, publisher={Polish Academy of Sciences Chancellery}, author={Meier, Patrick A. and Keuker-Baumann, Susanne and Röder, Thorsten and Herrmann, Harald and Ricken, Raimund and Silberhorn, Christine and Kitzerow, Heinz-Siegfried}, year={2024}, pages={150611–150611} }","apa":"Meier, P. A., Keuker-Baumann, S., Röder, T., Herrmann, H., Ricken, R., Silberhorn, C., & Kitzerow, H.-S. (2024). Optical imaging of ferroelectric domains in periodically poled lithium niobate using ferroelectric liquid crystals. Opto-Electronics Review, 150611–150611. https://doi.org/10.24425/opelre.2024.150611"},"year":"2024"},{"_id":"57618","department":[{"_id":"313"},{"_id":"230"},{"_id":"2"}],"user_id":"254","article_number":"961","language":[{"iso":"eng"}],"publication":"Nanomaterials","type":"journal_article","abstract":[{"text":"The presence of a polymer network and/or the addition of ferroelectric nanoparticles to a nematic liquid crystal are found to lower transition temperatures and birefringence, which indicates reduced orientational order. In addition, the electro-optic switching voltage is considerably increased when a polymer network is formed by in situ polymerization in the nematic state. However, the resulting polymer network liquid crystal switches at similar voltages as the neat liquid crystal when polymerization is performed at an elevated temperature in the isotropic state. When nanoparticle dispersions are polymerized at an applied DC voltage, the transition temperatures and switching voltages are reduced, yet they are larger than those observed for polymer network liquid crystals without nanoparticles polymerized in the isotropic phase.","lang":"eng"}],"status":"public","date_updated":"2024-12-08T14:46:05Z","publisher":"MDPI AG","volume":14,"author":[{"first_name":"Gaby","last_name":"Nordendorf","full_name":"Nordendorf, Gaby"},{"first_name":"Gisela","last_name":"Jünnemann-Held","full_name":"Jünnemann-Held, Gisela"},{"first_name":"Alexander","last_name":"Lorenz","full_name":"Lorenz, Alexander"},{"first_name":"Heinz-Siegfried","full_name":"Kitzerow, Heinz-Siegfried","id":"254","last_name":"Kitzerow"}],"date_created":"2024-12-08T14:36:04Z","title":"Effects of Composition and Polymerization Conditions on the Electro-Optic Performance of Liquid Crystal–Polymer Composites Doped with Ferroelectric Nanoparticles","doi":"10.3390/nano14110961","publication_identifier":{"issn":["2079-4991"]},"publication_status":"published","issue":"11","year":"2024","intvolume":" 14","citation":{"apa":"Nordendorf, G., Jünnemann-Held, G., Lorenz, A., & Kitzerow, H.-S. (2024). Effects of Composition and Polymerization Conditions on the Electro-Optic Performance of Liquid Crystal–Polymer Composites Doped with Ferroelectric Nanoparticles. Nanomaterials, 14(11), Article 961. https://doi.org/10.3390/nano14110961","bibtex":"@article{Nordendorf_Jünnemann-Held_Lorenz_Kitzerow_2024, title={Effects of Composition and Polymerization Conditions on the Electro-Optic Performance of Liquid Crystal–Polymer Composites Doped with Ferroelectric Nanoparticles}, volume={14}, DOI={10.3390/nano14110961}, number={11961}, journal={Nanomaterials}, publisher={MDPI AG}, author={Nordendorf, Gaby and Jünnemann-Held, Gisela and Lorenz, Alexander and Kitzerow, Heinz-Siegfried}, year={2024} }","short":"G. Nordendorf, G. Jünnemann-Held, A. Lorenz, H.-S. 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Akimov, ACS Photonics (2024).","bibtex":"@article{Karzel_Samusev_Linnik_Littmann_Reuter_Bayer_Scherbakov_Akimov_2024, title={Polariton-Induced Transparency in Multiple Quantum Wells Probed by Time Domain Brillouin Scattering}, DOI={10.1021/acsphotonics.4c01357}, journal={ACS Photonics}, publisher={American Chemical Society (ACS)}, author={Karzel, Marek and Samusev, Anton K. and Linnik, Tetiana L. and Littmann, Mario and Reuter, Dirk and Bayer, Manfred and Scherbakov, Alexey V. and Akimov, Andrey V.}, year={2024} }"},"publication_status":"published","publication_identifier":{"issn":["2330-4022","2330-4022"]}},{"intvolume":" 26","citation":{"ieee":"U. Ali, M. Holthaus, and T. Meier, “Floquet dynamics of ultracold atoms in optical lattices with a parametrically modulated trapping potential,” New Journal of Physics, vol. 26, no. 12, Art. no. 123016, 2024, doi: 10.1088/1367-2630/ad9b47.","chicago":"Ali, Usman, Martin Holthaus, and Torsten Meier. “Floquet Dynamics of Ultracold Atoms in Optical Lattices with a Parametrically Modulated Trapping Potential.” New Journal of Physics 26, no. 12 (2024). https://doi.org/10.1088/1367-2630/ad9b47.","ama":"Ali U, Holthaus M, Meier T. Floquet dynamics of ultracold atoms in optical lattices with a parametrically modulated trapping potential. New Journal of Physics. 2024;26(12). doi:10.1088/1367-2630/ad9b47","apa":"Ali, U., Holthaus, M., & Meier, T. (2024). Floquet dynamics of ultracold atoms in optical lattices with a parametrically modulated trapping potential. New Journal of Physics, 26(12), Article 123016. https://doi.org/10.1088/1367-2630/ad9b47","bibtex":"@article{Ali_Holthaus_Meier_2024, title={Floquet dynamics of ultracold atoms in optical lattices with a parametrically modulated trapping potential}, volume={26}, DOI={10.1088/1367-2630/ad9b47}, number={12123016}, journal={New Journal of Physics}, publisher={IOP Publishing}, author={Ali, Usman and Holthaus, Martin and Meier, Torsten}, year={2024} }","short":"U. Ali, M. Holthaus, T. Meier, New Journal of Physics 26 (2024).","mla":"Ali, Usman, et al. “Floquet Dynamics of Ultracold Atoms in Optical Lattices with a Parametrically Modulated Trapping Potential.” New Journal of Physics, vol. 26, no. 12, 123016, IOP Publishing, 2024, doi:10.1088/1367-2630/ad9b47."},"year":"2024","issue":"12","publication_identifier":{"issn":["1367-2630"]},"publication_status":"published","doi":"10.1088/1367-2630/ad9b47","title":"Floquet dynamics of ultracold atoms in optical lattices with a parametrically modulated trapping potential","volume":26,"date_created":"2024-12-18T13:59:34Z","author":[{"full_name":"Ali, Usman","last_name":"Ali","first_name":"Usman"},{"last_name":"Holthaus","full_name":"Holthaus, Martin","first_name":"Martin"},{"first_name":"Torsten","full_name":"Meier, Torsten","id":"344","orcid":"0000-0001-8864-2072","last_name":"Meier"}],"date_updated":"2024-12-18T14:00:41Z","publisher":"IOP Publishing","status":"public","abstract":[{"lang":"eng","text":"Abstract\r\n Experiments with ultracold atoms in optical lattices usually involve a weak parabolic trapping potential which merely serves to confine the atoms, but otherwise remains negligible. In contrast, we suggest a different class of experiments in which the presence of a stronger trap is an essential part of the set-up. Because the trap-modified on-site energies exhibit a slowly varying level spacing, similar to that of an anharmonic oscillator, an additional time-periodic trap modulation with judiciously chosen parameters creates nonlinear resonances which enable efficient Floquet engineering. We employ a Mathieu approximation for constructing the near-resonant Floquet states in an accurate manner and demonstrate the emergence of effective ground states from the resonant trap eigenstates. Moreover, we show that the population of the Floquet states is strongly affected by the phase of a sudden turn-on of the trap modulation, which leads to significantly modified and rich dynamics. As a guideline for further studies, we argue that the deliberate population of only the resonance-induced effective ground states will allow one to realize Floquet condensates which follow classical periodic orbits, thus providing challenging future perspectives for the investigation of the quantum–classical correspondence."}],"publication":"New Journal of Physics","type":"journal_article","language":[{"iso":"eng"}],"article_number":"123016","department":[{"_id":"15"},{"_id":"170"},{"_id":"293"},{"_id":"35"},{"_id":"230"},{"_id":"27"}],"user_id":"16199","_id":"57839","project":[{"name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"}]},{"year":"2024","title":"SRB Measures of Anosov Actions","date_created":"2022-06-22T09:56:23Z","file":[{"relation":"main_file","content_type":"application/pdf","file_name":"2103.12127.pdf","file_id":"32098","access_level":"open_access","file_size":745870,"creator":"weich","date_created":"2022-06-22T09:56:08Z","date_updated":"2022-06-22T09:56:08Z"}],"publication":"Journal of Differential Geometry","ddc":["510"],"language":[{"iso":"eng"}],"external_id":{"arxiv":["https://arxiv.org/abs/2103.12127"]},"citation":{"bibtex":"@article{Weich_Guedes Bonthonneau_Guillarmou_2024, title={SRB Measures of Anosov Actions}, volume={128}, DOI={ DOI: 10.4310/jdg/1729092452}, journal={Journal of Differential Geometry}, author={Weich, Tobias and Guedes Bonthonneau, Yannick and Guillarmou, Colin}, year={2024}, pages={959–1026} }","short":"T. Weich, Y. Guedes Bonthonneau, C. Guillarmou, Journal of Differential Geometry 128 (2024) 959–1026.","mla":"Weich, Tobias, et al. “SRB Measures of Anosov Actions.” Journal of Differential Geometry, vol. 128, 2024, pp. 959–1026, doi: DOI: 10.4310/jdg/1729092452.","apa":"Weich, T., Guedes Bonthonneau, Y., & Guillarmou, C. (2024). SRB Measures of Anosov Actions. Journal of Differential Geometry, 128, 959–1026. https://doi.org/ DOI: 10.4310/jdg/1729092452","chicago":"Weich, Tobias, Yannick Guedes Bonthonneau, and Colin Guillarmou. “SRB Measures of Anosov Actions.” Journal of Differential Geometry 128 (2024): 959–1026. https://doi.org/ DOI: 10.4310/jdg/1729092452.","ieee":"T. Weich, Y. Guedes Bonthonneau, and C. Guillarmou, “SRB Measures of Anosov Actions,” Journal of Differential Geometry, vol. 128, pp. 959–1026, 2024, doi: DOI: 10.4310/jdg/1729092452.","ama":"Weich T, Guedes Bonthonneau Y, Guillarmou C. SRB Measures of Anosov Actions. Journal of Differential Geometry. 2024;128:959-1026. doi: DOI: 10.4310/jdg/1729092452"},"page":"959-1026","intvolume":" 128","has_accepted_license":"1","doi":" DOI: 10.4310/jdg/1729092452","oa":"1","date_updated":"2025-01-02T15:39:43Z","author":[{"first_name":"Tobias","last_name":"Weich","orcid":"0000-0002-9648-6919","id":"49178","full_name":"Weich, Tobias"},{"full_name":"Guedes Bonthonneau, Yannick","last_name":"Guedes Bonthonneau","first_name":"Yannick"},{"full_name":"Guillarmou, Colin","last_name":"Guillarmou","first_name":"Colin"}],"volume":128,"status":"public","type":"journal_article","file_date_updated":"2022-06-22T09:56:08Z","project":[{"grant_number":"491392403","name":"TRR 358 - Geodätische Flüsse und Weyl Kammer Flüsse auf affinen Gebäuden (Teilprojekt B04)","_id":"358"},{"name":"Mikrolokale Methoden für hyperbolische Dynamiken","_id":"355","grant_number":"422642921"}],"_id":"32097","user_id":"49178","department":[{"_id":"10"},{"_id":"623"},{"_id":"548"}]},{"date_created":"2025-01-21T13:48:05Z","publisher":"MDPI AG","title":"Comparative Analysis of Phase-Field and Intrinsic Cohesive Zone Models for Fracture Simulations in Multiphase Materials with Interfaces: Investigation of the Influence of the Microstructure on the Fracture Properties","issue":"1","quality_controlled":"1","year":"2024","language":[{"iso":"eng"}],"publication":"Applied Sciences","abstract":[{"text":"This study evaluates four widely used fracture simulation methods, comparing their computational expenses and implementation complexities within the finite element (FE) framework when employed on heterogeneous solids. Fracture methods considered encompass the intrinsic cohesive zone model (CZM) using zero-thickness cohesive interface elements (CIEs), the standard phase-field fracture (SPFM) approach, the cohesive phase-field fracture (CPFM) approach, and an innovative hybrid model. The hybrid approach combines the CPFM fracture method with the CZM, specifically applying the CZM within the interface zone. The finite element model studied is characterized by three specific phases: inclusions, matrix, and the interface zone. This case study serves as a potential template for meso- or micro-level simulations involving a variety of composite materials. The thorough assessment of these modeling techniques indicates that the CPFM approach stands out as the most effective computational model, provided that the thickness of the interface zone is not significantly smaller than that of the other phases. In materials like concrete, which contain interfaces within their microstructure, the interface thickness is notably small when compared to other phases. This leads to the hybrid model standing as the most authentic finite element model, utilizing CIEs within the interface to simulate interface debonding. A significant finding from this investigation is that within the CPFM method, for a specific interface thickness, convergence with the hybrid model can be observed. This suggests that the CPFM fracture method could serve as a unified fracture approach for multiphase materials when a specific interfacial thickness is used. In addition, this research provides valuable insights that can advance efforts to fine-tune material microstructures. An investigation of the influence of interfacial material properties, voids, and the spatial arrangement of inclusions shows a pronounced effect of these parameters on the fracture toughness of the material.","lang":"eng"}],"volume":15,"author":[{"first_name":"Rasoul","last_name":"Najafi Koopas","full_name":"Najafi Koopas, Rasoul"},{"full_name":"Rezaei, Shahed","last_name":"Rezaei","first_name":"Shahed"},{"first_name":"Natalie","full_name":"Rauter, Natalie","last_name":"Rauter"},{"full_name":"Ostwald, Richard","id":"106876","last_name":"Ostwald","first_name":"Richard"},{"first_name":"Rolf","full_name":"Lammering, Rolf","last_name":"Lammering"}],"date_updated":"2025-02-14T10:52:55Z","doi":"10.3390/app15010160","publication_identifier":{"issn":["2076-3417"]},"publication_status":"published","intvolume":" 15","citation":{"ama":"Najafi Koopas R, Rezaei S, Rauter N, Ostwald R, Lammering R. Comparative Analysis of Phase-Field and Intrinsic Cohesive Zone Models for Fracture Simulations in Multiphase Materials with Interfaces: Investigation of the Influence of the Microstructure on the Fracture Properties. Applied Sciences. 2024;15(1). doi:10.3390/app15010160","ieee":"R. Najafi Koopas, S. Rezaei, N. Rauter, R. Ostwald, and R. Lammering, “Comparative Analysis of Phase-Field and Intrinsic Cohesive Zone Models for Fracture Simulations in Multiphase Materials with Interfaces: Investigation of the Influence of the Microstructure on the Fracture Properties,” Applied Sciences, vol. 15, no. 1, Art. no. 160, 2024, doi: 10.3390/app15010160.","chicago":"Najafi Koopas, Rasoul, Shahed Rezaei, Natalie Rauter, Richard Ostwald, and Rolf Lammering. “Comparative Analysis of Phase-Field and Intrinsic Cohesive Zone Models for Fracture Simulations in Multiphase Materials with Interfaces: Investigation of the Influence of the Microstructure on the Fracture Properties.” Applied Sciences 15, no. 1 (2024). https://doi.org/10.3390/app15010160.","mla":"Najafi Koopas, Rasoul, et al. “Comparative Analysis of Phase-Field and Intrinsic Cohesive Zone Models for Fracture Simulations in Multiphase Materials with Interfaces: Investigation of the Influence of the Microstructure on the Fracture Properties.” Applied Sciences, vol. 15, no. 1, 160, MDPI AG, 2024, doi:10.3390/app15010160.","bibtex":"@article{Najafi Koopas_Rezaei_Rauter_Ostwald_Lammering_2024, title={Comparative Analysis of Phase-Field and Intrinsic Cohesive Zone Models for Fracture Simulations in Multiphase Materials with Interfaces: Investigation of the Influence of the Microstructure on the Fracture Properties}, volume={15}, DOI={10.3390/app15010160}, number={1160}, journal={Applied Sciences}, publisher={MDPI AG}, author={Najafi Koopas, Rasoul and Rezaei, Shahed and Rauter, Natalie and Ostwald, Richard and Lammering, Rolf}, year={2024} }","short":"R. Najafi Koopas, S. Rezaei, N. Rauter, R. Ostwald, R. Lammering, Applied Sciences 15 (2024).","apa":"Najafi Koopas, R., Rezaei, S., Rauter, N., Ostwald, R., & Lammering, R. (2024). Comparative Analysis of Phase-Field and Intrinsic Cohesive Zone Models for Fracture Simulations in Multiphase Materials with Interfaces: Investigation of the Influence of the Microstructure on the Fracture Properties. Applied Sciences, 15(1), Article 160. https://doi.org/10.3390/app15010160"},"department":[{"_id":"9"},{"_id":"952"},{"_id":"321"}],"user_id":"85414","_id":"58309","article_number":"160","type":"journal_article","status":"public"},{"status":"public","type":"conference","publication":"German Microwave Conference (GeMiC) ","language":[{"iso":"eng"}],"user_id":"38254","department":[{"_id":"58"},{"_id":"623"}],"_id":"50287","citation":{"ieee":"S. Kruse, T. Schwabe, P. Kneuper, H. G. Kurz, M.-M. Meinecke, and C. Scheytt, “Analysis and Simulation of a Photonic Multiband FMCW Radar Sensor System using Nyquist Pulses,” 2024, doi: 10.23919/GeMiC59120.2024.10485320.","chicago":"Kruse, Stephan, Tobias Schwabe, Pascal Kneuper, Heiko G. Kurz, March-Michael Meinecke, and Christoph Scheytt. “Analysis and Simulation of a Photonic Multiband FMCW Radar Sensor System Using Nyquist Pulses.” In German Microwave Conference (GeMiC) . Duisburg, 2024. https://doi.org/10.23919/GeMiC59120.2024.10485320.","ama":"Kruse S, Schwabe T, Kneuper P, Kurz HG, Meinecke M-M, Scheytt C. Analysis and Simulation of a Photonic Multiband FMCW Radar Sensor System using Nyquist Pulses. In: German Microwave Conference (GeMiC) . ; 2024. doi:10.23919/GeMiC59120.2024.10485320","apa":"Kruse, S., Schwabe, T., Kneuper, P., Kurz, H. G., Meinecke, M.-M., & Scheytt, C. (2024). Analysis and Simulation of a Photonic Multiband FMCW Radar Sensor System using Nyquist Pulses. German Microwave Conference (GeMiC) . https://doi.org/10.23919/GeMiC59120.2024.10485320","short":"S. Kruse, T. Schwabe, P. Kneuper, H.G. Kurz, M.-M. Meinecke, C. Scheytt, in: German Microwave Conference (GeMiC) , Duisburg, 2024.","bibtex":"@inproceedings{Kruse_Schwabe_Kneuper_Kurz_Meinecke_Scheytt_2024, place={Duisburg}, title={Analysis and Simulation of a Photonic Multiband FMCW Radar Sensor System using Nyquist Pulses}, DOI={10.23919/GeMiC59120.2024.10485320}, booktitle={German Microwave Conference (GeMiC) }, author={Kruse, Stephan and Schwabe, Tobias and Kneuper, Pascal and Kurz, Heiko G. and Meinecke, March-Michael and Scheytt, Christoph}, year={2024} }","mla":"Kruse, Stephan, et al. “Analysis and Simulation of a Photonic Multiband FMCW Radar Sensor System Using Nyquist Pulses.” German Microwave Conference (GeMiC) , 2024, doi:10.23919/GeMiC59120.2024.10485320."},"year":"2024","place":"Duisburg","doi":"10.23919/GeMiC59120.2024.10485320","conference":{"end_date":"2024.03.13","start_date":"2024.03.11"},"title":"Analysis and Simulation of a Photonic Multiband FMCW Radar Sensor System using Nyquist Pulses","date_created":"2024-01-09T08:12:04Z","author":[{"first_name":"Stephan","id":"38254","full_name":"Kruse, Stephan","last_name":"Kruse"},{"first_name":"Tobias","last_name":"Schwabe","id":"39217","full_name":"Schwabe, Tobias"},{"first_name":"Pascal","id":"47367","full_name":"Kneuper, Pascal","last_name":"Kneuper"},{"full_name":"Kurz, Heiko G.","last_name":"Kurz","first_name":"Heiko G."},{"last_name":"Meinecke","full_name":"Meinecke, March-Michael","first_name":"March-Michael"},{"first_name":"Christoph","id":"37144","full_name":"Scheytt, Christoph","last_name":"Scheytt","orcid":"0000-0002-5950-6618 "}],"date_updated":"2025-02-25T06:08:18Z"}]