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Luo, M. Santandrea, M. Stefszky, J. Sperling, M. Massaro, A. Ferreri, P. Sharapova, H. Herrmann, C. Silberhorn, Physical Review A (2021).","ama":"Luo KH, Santandrea M, Stefszky M, et al. Quantum optical coherence: From linear to nonlinear interferometers. Physical Review A. Published online 2021. doi:10.1103/physreva.104.043707","apa":"Luo, K. H., Santandrea, M., Stefszky, M., Sperling, J., Massaro, M., Ferreri, A., Sharapova, P., Herrmann, H., & Silberhorn, C. (2021). Quantum optical coherence: From linear to nonlinear interferometers. Physical Review A. https://doi.org/10.1103/physreva.104.043707","chicago":"Luo, Kai Hong, Matteo Santandrea, Michael Stefszky, Jan Sperling, Marcello Massaro, Alessandro Ferreri, Polina Sharapova, Harald Herrmann, and Christine Silberhorn. “Quantum Optical Coherence: From Linear to Nonlinear Interferometers.” Physical Review A, 2021. https://doi.org/10.1103/physreva.104.043707.","ieee":"K. H. Luo et al., “Quantum optical coherence: From linear to nonlinear interferometers,” Physical Review A, 2021, doi: 10.1103/physreva.104.043707."}},{"language":[{"iso":"eng"}],"year":"2021","type":"journal_article","publication_identifier":{"issn":["2691-3399"]},"status":"public","date_created":"2021-10-15T16:00:39Z","publication":"PRX Quantum","date_updated":"2023-04-20T15:11:36Z","_id":"26283","project":[{"_id":"52","name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing"},{"_id":"53","name":"TRR 142: TRR 142"},{"name":"TRR 142 - A: TRR 142 - Project Area A","_id":"54"},{"name":"TRR 142 - A4: TRR 142 - Subproject A4","_id":"61"}],"doi":"10.1103/prxquantum.2.030320","title":"Quantifying Quantum Coherence in Polariton Condensates","author":[{"last_name":"Lüders","full_name":"Lüders, Carolin","first_name":"Carolin"},{"last_name":"Pukrop","id":"64535","first_name":"Matthias","full_name":"Pukrop, Matthias"},{"first_name":"Elena","full_name":"Rozas, Elena","last_name":"Rozas"},{"full_name":"Schneider, Christian","first_name":"Christian","last_name":"Schneider"},{"first_name":"Sven","full_name":"Höfling, Sven","last_name":"Höfling"},{"orcid":"0000-0002-5844-3205","full_name":"Sperling, Jan","first_name":"Jan","last_name":"Sperling","id":"75127"},{"full_name":"Schumacher, Stefan","first_name":"Stefan","last_name":"Schumacher","id":"27271","orcid":"0000-0003-4042-4951"},{"last_name":"Aßmann","full_name":"Aßmann, Marc","first_name":"Marc"}],"department":[{"_id":"15"},{"_id":"170"},{"_id":"297"},{"_id":"706"},{"_id":"230"},{"_id":"429"},{"_id":"623"},{"_id":"35"}],"citation":{"short":"C. Lüders, M. Pukrop, E. Rozas, C. Schneider, S. Höfling, J. Sperling, S. Schumacher, M. Aßmann, PRX Quantum (2021).","bibtex":"@article{Lüders_Pukrop_Rozas_Schneider_Höfling_Sperling_Schumacher_Aßmann_2021, title={Quantifying Quantum Coherence in Polariton Condensates}, DOI={10.1103/prxquantum.2.030320}, journal={PRX Quantum}, author={Lüders, Carolin and Pukrop, Matthias and Rozas, Elena and Schneider, Christian and Höfling, Sven and Sperling, Jan and Schumacher, Stefan and Aßmann, Marc}, year={2021} }","mla":"Lüders, Carolin, et al. “Quantifying Quantum Coherence in Polariton Condensates.” PRX Quantum, 2021, doi:10.1103/prxquantum.2.030320.","ieee":"C. Lüders et al., “Quantifying Quantum Coherence in Polariton Condensates,” PRX Quantum, 2021, doi: 10.1103/prxquantum.2.030320.","chicago":"Lüders, Carolin, Matthias Pukrop, Elena Rozas, Christian Schneider, Sven Höfling, Jan Sperling, Stefan Schumacher, and Marc Aßmann. “Quantifying Quantum Coherence in Polariton Condensates.” PRX Quantum, 2021. https://doi.org/10.1103/prxquantum.2.030320.","ama":"Lüders C, Pukrop M, Rozas E, et al. Quantifying Quantum Coherence in Polariton Condensates. PRX Quantum. Published online 2021. doi:10.1103/prxquantum.2.030320","apa":"Lüders, C., Pukrop, M., Rozas, E., Schneider, C., Höfling, S., Sperling, J., Schumacher, S., & Aßmann, M. (2021). Quantifying Quantum Coherence in Polariton Condensates. PRX Quantum. https://doi.org/10.1103/prxquantum.2.030320"},"publication_status":"published","user_id":"16199"},{"user_id":"16199","publication_status":"published","citation":{"short":"D. Bagrets, K.W. Kim, S. Barkhofen, S. De, J. Sperling, C. Silberhorn, A. Altland, T. Micklitz, Physical Review Research (2021).","mla":"Bagrets, Dmitry, et al. “Probing the Topological Anderson Transition with Quantum Walks.” Physical Review Research, 2021, doi:10.1103/physrevresearch.3.023183.","bibtex":"@article{Bagrets_Kim_Barkhofen_De_Sperling_Silberhorn_Altland_Micklitz_2021, title={Probing the topological Anderson transition with quantum walks}, DOI={10.1103/physrevresearch.3.023183}, journal={Physical Review Research}, author={Bagrets, Dmitry and Kim, Kun Woo and Barkhofen, Sonja and De, Syamsundar and Sperling, Jan and Silberhorn, Christine and Altland, Alexander and Micklitz, Tobias}, year={2021} }","chicago":"Bagrets, Dmitry, Kun Woo Kim, Sonja Barkhofen, Syamsundar De, Jan Sperling, Christine Silberhorn, Alexander Altland, and Tobias Micklitz. “Probing the Topological Anderson Transition with Quantum Walks.” Physical Review Research, 2021. https://doi.org/10.1103/physrevresearch.3.023183.","ieee":"D. Bagrets et al., “Probing the topological Anderson transition with quantum walks,” Physical Review Research, 2021, doi: 10.1103/physrevresearch.3.023183.","ama":"Bagrets D, Kim KW, Barkhofen S, et al. Probing the topological Anderson transition with quantum walks. Physical Review Research. Published online 2021. doi:10.1103/physrevresearch.3.023183","apa":"Bagrets, D., Kim, K. W., Barkhofen, S., De, S., Sperling, J., Silberhorn, C., Altland, A., & Micklitz, T. (2021). Probing the topological Anderson transition with quantum walks. Physical Review Research. https://doi.org/10.1103/physrevresearch.3.023183"},"department":[{"_id":"15"},{"_id":"170"},{"_id":"706"},{"_id":"288"},{"_id":"230"},{"_id":"623"},{"_id":"35"}],"author":[{"last_name":"Bagrets","full_name":"Bagrets, Dmitry","first_name":"Dmitry"},{"last_name":"Kim","full_name":"Kim, Kun Woo","first_name":"Kun Woo"},{"first_name":"Sonja","full_name":"Barkhofen, Sonja","id":"48188","last_name":"Barkhofen"},{"last_name":"De","first_name":"Syamsundar","full_name":"De, Syamsundar"},{"last_name":"Sperling","id":"75127","full_name":"Sperling, Jan","first_name":"Jan","orcid":"0000-0002-5844-3205"},{"last_name":"Silberhorn","id":"26263","first_name":"Christine","full_name":"Silberhorn, Christine"},{"last_name":"Altland","first_name":"Alexander","full_name":"Altland, Alexander"},{"full_name":"Micklitz, Tobias","first_name":"Tobias","last_name":"Micklitz"}],"title":"Probing the topological Anderson transition with quantum walks","doi":"10.1103/physrevresearch.3.023183","_id":"26284","date_updated":"2023-04-20T15:07:12Z","publication":"Physical Review Research","date_created":"2021-10-15T16:03:53Z","status":"public","type":"journal_article","year":"2021","publication_identifier":{"issn":["2643-1564"]},"language":[{"iso":"eng"}]},{"author":[{"last_name":"Slawig","first_name":"Diana","full_name":"Slawig, Diana"},{"last_name":"Gruschwitz","full_name":"Gruschwitz, Markus","first_name":"Markus"},{"first_name":"Uwe","full_name":"Gerstmann, Uwe","last_name":"Gerstmann","id":"171","orcid":"0000-0002-4476-223X"},{"full_name":"Rauls, Eva","first_name":"Eva","last_name":"Rauls"},{"last_name":"Tegenkamp","first_name":"Christoph","full_name":"Tegenkamp, Christoph"}],"intvolume":" 125","publication_status":"published","citation":{"chicago":"Slawig, Diana, Markus Gruschwitz, Uwe Gerstmann, Eva Rauls, and Christoph Tegenkamp. “Adsorption and Reaction of PbPc on Hydrogenated Epitaxial Graphene.” The Journal of Physical Chemistry C 125, no. 36 (2021): 20087–93. https://doi.org/10.1021/acs.jpcc.1c06320.","ieee":"D. Slawig, M. Gruschwitz, U. Gerstmann, E. Rauls, and C. Tegenkamp, “Adsorption and Reaction of PbPc on Hydrogenated Epitaxial Graphene,” The Journal of Physical Chemistry C, vol. 125, no. 36, pp. 20087–20093, 2021, doi: 10.1021/acs.jpcc.1c06320.","ama":"Slawig D, Gruschwitz M, Gerstmann U, Rauls E, Tegenkamp C. Adsorption and Reaction of PbPc on Hydrogenated Epitaxial Graphene. The Journal of Physical Chemistry C. 2021;125(36):20087-20093. doi:10.1021/acs.jpcc.1c06320","apa":"Slawig, D., Gruschwitz, M., Gerstmann, U., Rauls, E., & Tegenkamp, C. (2021). Adsorption and Reaction of PbPc on Hydrogenated Epitaxial Graphene. The Journal of Physical Chemistry C, 125(36), 20087–20093. https://doi.org/10.1021/acs.jpcc.1c06320","short":"D. Slawig, M. Gruschwitz, U. Gerstmann, E. Rauls, C. Tegenkamp, The Journal of Physical Chemistry C 125 (2021) 20087–20093.","mla":"Slawig, Diana, et al. “Adsorption and Reaction of PbPc on Hydrogenated Epitaxial Graphene.” The Journal of Physical Chemistry C, vol. 125, no. 36, American Chemical Society (ACS), 2021, pp. 20087–93, doi:10.1021/acs.jpcc.1c06320.","bibtex":"@article{Slawig_Gruschwitz_Gerstmann_Rauls_Tegenkamp_2021, title={Adsorption and Reaction of PbPc on Hydrogenated Epitaxial Graphene}, volume={125}, DOI={10.1021/acs.jpcc.1c06320}, number={36}, journal={The Journal of Physical Chemistry C}, publisher={American Chemical Society (ACS)}, author={Slawig, Diana and Gruschwitz, Markus and Gerstmann, Uwe and Rauls, Eva and Tegenkamp, Christoph}, year={2021}, pages={20087–20093} }"},"department":[{"_id":"15"},{"_id":"170"},{"_id":"295"},{"_id":"35"},{"_id":"790"}],"publisher":"American Chemical Society (ACS)","date_created":"2022-02-03T15:37:32Z","status":"public","language":[{"iso":"eng"}],"publication_identifier":{"issn":["1932-7447","1932-7455"]},"year":"2021","_id":"29748","date_updated":"2023-04-20T16:04:22Z","title":"Adsorption and Reaction of PbPc on Hydrogenated Epitaxial Graphene","doi":"10.1021/acs.jpcc.1c06320","project":[{"name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"},{"name":"TRR 142: TRR 142","_id":"53"},{"name":"TRR 142 - B: TRR 142 - Project Area B","_id":"55"},{"name":"TRR 142 - B4: TRR 142 - Subproject B4","_id":"69"},{"name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"}],"keyword":["Surfaces","Coatings and Films","Physical and Theoretical Chemistry","General Energy","Electronic","Optical and Magnetic Materials"],"user_id":"16199","publication":"The Journal of Physical Chemistry C","type":"journal_article","volume":125,"page":"20087-20093","issue":"36"},{"date_updated":"2023-04-21T11:11:08Z","_id":"37331","volume":2021,"year":"2021","publication_identifier":{"issn":["2765-8791"]},"type":"journal_article","language":[{"iso":"eng"}],"status":"public","publication":"Ultrafast Science","date_created":"2023-01-18T11:25:42Z","publisher":"American Association for the Advancement of Science (AAAS)","department":[{"_id":"15"},{"_id":"170"},{"_id":"293"},{"_id":"230"},{"_id":"35"}],"citation":{"short":"R. Zuo, A. Trautmann, G. Wang, W.-R. Hannes, S. Yang, X. Song, T. Meier, M. Ciappina, H.T. Duc, W. Yang, Ultrafast Science 2021 (2021).","bibtex":"@article{Zuo_Trautmann_Wang_Hannes_Yang_Song_Meier_Ciappina_Duc_Yang_2021, title={Neighboring Atom Collisions in Solid-State High Harmonic Generation}, volume={2021}, DOI={10.34133/2021/9861923}, journal={Ultrafast Science}, publisher={American Association for the Advancement of Science (AAAS)}, author={Zuo, Ruixin and Trautmann, Alexander and Wang, Guifang and Hannes, Wolf-Rüdiger and Yang, Shidong and Song, Xiaohong and Meier, Torsten and Ciappina, Marcelo and Duc, Huynh Thanh and Yang, Weifeng}, year={2021} }","mla":"Zuo, Ruixin, et al. “Neighboring Atom Collisions in Solid-State High Harmonic Generation.” Ultrafast Science, vol. 2021, American Association for the Advancement of Science (AAAS), 2021, doi:10.34133/2021/9861923.","ieee":"R. Zuo et al., “Neighboring Atom Collisions in Solid-State High Harmonic Generation,” Ultrafast Science, vol. 2021, 2021, doi: 10.34133/2021/9861923.","chicago":"Zuo, Ruixin, Alexander Trautmann, Guifang Wang, Wolf-Rüdiger Hannes, Shidong Yang, Xiaohong Song, Torsten Meier, Marcelo Ciappina, Huynh Thanh Duc, and Weifeng Yang. “Neighboring Atom Collisions in Solid-State High Harmonic Generation.” Ultrafast Science 2021 (2021). https://doi.org/10.34133/2021/9861923.","ama":"Zuo R, Trautmann A, Wang G, et al. Neighboring Atom Collisions in Solid-State High Harmonic Generation. Ultrafast Science. 2021;2021. doi:10.34133/2021/9861923","apa":"Zuo, R., Trautmann, A., Wang, G., Hannes, W.-R., Yang, S., Song, X., Meier, T., Ciappina, M., Duc, H. T., & Yang, W. (2021). Neighboring Atom Collisions in Solid-State High Harmonic Generation. Ultrafast Science, 2021. https://doi.org/10.34133/2021/9861923"},"user_id":"16199","publication_status":"published","project":[{"_id":"52","name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing"},{"_id":"53","name":"TRR 142: TRR 142"},{"_id":"54","name":"TRR 142 - A: TRR 142 - Project Area A"},{"_id":"64","name":"TRR 142 - A7: TRR 142 - Subproject A7"}],"doi":"10.34133/2021/9861923","abstract":[{"text":"High harmonic generation (HHG) from solids shows great application prospects in compact short-wavelength light sources and as a tool for imaging the dynamics in crystals with subnanometer spatial and attosecond temporal resolution. However, the underlying collision dynamics behind solid HHG is still intensively debated and no direct mapping relationship between the collision dynamics with band structure has been built. Here, we show that the electron and its associated hole can be elastically scattered by neighboring atoms when their wavelength approaches the atomic size. We reveal that the elastic scattering of electron/hole from neighboring atoms can dramatically influence the electron recombination with its left-behind hole, which turns out to be the fundamental reason for the anisotropic interband HHG observed recently in bulk crystals. Our findings link the electron/hole backward scattering with Van Hove singularities and forward scattering with critical lines in the band structure and thus build a clear mapping between the band structure and the harmonic spectrum. Our work provides a unifying picture for several seemingly unrelated experimental observations and theoretical predictions, including the anisotropic harmonic emission in MgO, the atomic-like recollision mechanism of solid HHG, and the delocalization of HHG in ZnO. This strongly improved understanding will pave the way for controlling the solid-state HHG and visualizing the structure-dependent electron dynamics in solids.","lang":"eng"}],"intvolume":" 2021","title":"Neighboring Atom Collisions in Solid-State High Harmonic Generation","author":[{"first_name":"Ruixin","full_name":"Zuo, Ruixin","last_name":"Zuo"},{"first_name":"Alexander","full_name":"Trautmann, Alexander","last_name":"Trautmann","id":"38163"},{"last_name":"Wang","first_name":"Guifang","full_name":"Wang, Guifang"},{"first_name":"Wolf-Rüdiger","full_name":"Hannes, Wolf-Rüdiger","last_name":"Hannes"},{"last_name":"Yang","full_name":"Yang, Shidong","first_name":"Shidong"},{"last_name":"Song","first_name":"Xiaohong","full_name":"Song, Xiaohong"},{"last_name":"Meier","id":"344","full_name":"Meier, Torsten","first_name":"Torsten","orcid":"0000-0001-8864-2072"},{"first_name":"Marcelo","full_name":"Ciappina, Marcelo","last_name":"Ciappina"},{"first_name":"Huynh Thanh","full_name":"Duc, Huynh Thanh","last_name":"Duc"},{"full_name":"Yang, Weifeng","first_name":"Weifeng","last_name":"Yang"}]}]