[{"status":"public","type":"journal_article","article_type":"original","article_number":"012220","project":[{"_id":"266","name":"PhoQC: Photonisches Quantencomputing"},{"_id":"174","name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse"}],"_id":"63656","user_id":"99427","department":[{"_id":"799"}],"citation":{"bibtex":"@article{Ares_Pinske_Hinrichs_Kolb_Sperling_2026, title={Restricted Monte Carlo wave-function method and Lindblad equation for identifying entangling open-quantum-system dynamics}, volume={113}, DOI={10.1103/hcj7-8zlg}, number={1012220}, journal={Physical Review A}, publisher={American Physical Society (APS)}, author={Ares, Laura and Pinske, Julien and Hinrichs, Benjamin and Kolb, Martin and Sperling, Jan}, year={2026} }","short":"L. Ares, J. Pinske, B. Hinrichs, M. Kolb, J. Sperling, Physical Review A 113 (2026).","mla":"Ares, Laura, et al. “Restricted Monte Carlo Wave-Function Method and Lindblad Equation for Identifying Entangling Open-Quantum-System Dynamics.” Physical Review A, vol. 113, no. 1, 012220, American Physical Society (APS), 2026, doi:10.1103/hcj7-8zlg.","apa":"Ares, L., Pinske, J., Hinrichs, B., Kolb, M., & Sperling, J. (2026). Restricted Monte Carlo wave-function method and Lindblad equation for identifying entangling open-quantum-system dynamics. Physical Review A, 113(1), Article 012220. https://doi.org/10.1103/hcj7-8zlg","chicago":"Ares, Laura, Julien Pinske, Benjamin Hinrichs, Martin Kolb, and Jan Sperling. “Restricted Monte Carlo Wave-Function Method and Lindblad Equation for Identifying Entangling Open-Quantum-System Dynamics.” Physical Review A 113, no. 1 (2026). https://doi.org/10.1103/hcj7-8zlg.","ieee":"L. Ares, J. Pinske, B. Hinrichs, M. Kolb, and J. Sperling, “Restricted Monte Carlo wave-function method and Lindblad equation for identifying entangling open-quantum-system dynamics,” Physical Review A, vol. 113, no. 1, Art. no. 012220, 2026, doi: 10.1103/hcj7-8zlg.","ama":"Ares L, Pinske J, Hinrichs B, Kolb M, Sperling J. Restricted Monte Carlo wave-function method and Lindblad equation for identifying entangling open-quantum-system dynamics. Physical Review A. 2026;113(1). doi:10.1103/hcj7-8zlg"},"intvolume":" 113","publication_status":"published","publication_identifier":{"issn":["2469-9926","2469-9934"]},"doi":"10.1103/hcj7-8zlg","date_updated":"2026-01-18T18:15:01Z","author":[{"first_name":"Laura","full_name":"Ares, Laura","last_name":"Ares"},{"first_name":"Julien","last_name":"Pinske","full_name":"Pinske, Julien"},{"orcid":"0000-0001-9074-1205","last_name":"Hinrichs","id":"99427","full_name":"Hinrichs, Benjamin","first_name":"Benjamin"},{"first_name":"Martin","full_name":"Kolb, Martin","id":"48880","last_name":"Kolb"},{"first_name":"Jan","last_name":"Sperling","orcid":"0000-0002-5844-3205","full_name":"Sperling, Jan","id":"75127"}],"volume":113,"publication":"Physical Review A","language":[{"iso":"eng"}],"external_id":{"arxiv":["2412.08735"]},"year":"2026","issue":"1","title":"Restricted Monte Carlo wave-function method and Lindblad equation for identifying entangling open-quantum-system dynamics","publisher":"American Physical Society (APS)","date_created":"2026-01-18T18:08:18Z"},{"external_id":{"arxiv":["2412.08724"]},"language":[{"iso":"eng"}],"publication":"Physical Review A","date_created":"2026-01-18T18:11:27Z","publisher":"American Physical Society (APS)","title":"Separability Lindblad equation for dynamical open-system entanglement","issue":"1","year":"2026","department":[{"_id":"799"}],"user_id":"99427","_id":"63657","project":[{"name":"PhoQC: Photonisches Quantencomputing","_id":"266"},{"name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse","_id":"174"}],"article_number":"L010403","article_type":"letter_note","type":"journal_article","status":"public","volume":113,"author":[{"last_name":"Pinske","full_name":"Pinske, Julien","first_name":"Julien"},{"first_name":"Laura","last_name":"Ares","full_name":"Ares, Laura"},{"id":"99427","full_name":"Hinrichs, Benjamin","last_name":"Hinrichs","orcid":"0000-0001-9074-1205","first_name":"Benjamin"},{"first_name":"Martin","last_name":"Kolb","full_name":"Kolb, Martin","id":"48880"},{"id":"75127","full_name":"Sperling, Jan","orcid":"0000-0002-5844-3205","last_name":"Sperling","first_name":"Jan"}],"date_updated":"2026-01-18T18:15:26Z","doi":"10.1103/kd3b-bfxq","publication_identifier":{"issn":["2469-9926","2469-9934"]},"publication_status":"published","intvolume":" 113","citation":{"ama":"Pinske J, Ares L, Hinrichs B, Kolb M, Sperling J. Separability Lindblad equation for dynamical open-system entanglement. Physical Review A. 2026;113(1). doi:10.1103/kd3b-bfxq","ieee":"J. Pinske, L. Ares, B. Hinrichs, M. Kolb, and J. Sperling, “Separability Lindblad equation for dynamical open-system entanglement,” Physical Review A, vol. 113, no. 1, Art. no. L010403, 2026, doi: 10.1103/kd3b-bfxq.","chicago":"Pinske, Julien, Laura Ares, Benjamin Hinrichs, Martin Kolb, and Jan Sperling. “Separability Lindblad Equation for Dynamical Open-System Entanglement.” Physical Review A 113, no. 1 (2026). https://doi.org/10.1103/kd3b-bfxq.","mla":"Pinske, Julien, et al. “Separability Lindblad Equation for Dynamical Open-System Entanglement.” Physical Review A, vol. 113, no. 1, L010403, American Physical Society (APS), 2026, doi:10.1103/kd3b-bfxq.","short":"J. Pinske, L. Ares, B. Hinrichs, M. Kolb, J. Sperling, Physical Review A 113 (2026).","bibtex":"@article{Pinske_Ares_Hinrichs_Kolb_Sperling_2026, title={Separability Lindblad equation for dynamical open-system entanglement}, volume={113}, DOI={10.1103/kd3b-bfxq}, number={1L010403}, journal={Physical Review A}, publisher={American Physical Society (APS)}, author={Pinske, Julien and Ares, Laura and Hinrichs, Benjamin and Kolb, Martin and Sperling, Jan}, year={2026} }","apa":"Pinske, J., Ares, L., Hinrichs, B., Kolb, M., & Sperling, J. (2026). Separability Lindblad equation for dynamical open-system entanglement. Physical Review A, 113(1), Article L010403. https://doi.org/10.1103/kd3b-bfxq"}},{"doi":"10.48550/ARXIV.2603.01656","title":"Gain-induced spectral non-degeneracy in type-II parametric down-conversion","author":[{"first_name":"Behnood","full_name":"Taheri, Behnood","last_name":"Taheri"},{"first_name":"Denis","last_name":"Kopylov","full_name":"Kopylov, Denis","id":"98502"},{"first_name":"Manfred","last_name":"Hammer","orcid":"0000-0002-6331-9348","full_name":"Hammer, Manfred","id":"48077"},{"id":"344","full_name":"Meier, Torsten","orcid":"0000-0001-8864-2072","last_name":"Meier","first_name":"Torsten"},{"full_name":"Förstner, Jens","id":"158","last_name":"Förstner","orcid":"0000-0001-7059-9862","first_name":"Jens"},{"full_name":"Sharapova, Polina R.","id":"60286","last_name":"Sharapova","first_name":"Polina R."}],"date_created":"2026-03-10T15:37:22Z","date_updated":"2026-03-10T15:41:18Z","citation":{"ieee":"B. Taheri, D. Kopylov, M. Hammer, T. Meier, J. Förstner, and P. R. Sharapova, “Gain-induced spectral non-degeneracy in type-II parametric down-conversion,” arXiv, 2026, doi: 10.48550/ARXIV.2603.01656.","chicago":"Taheri, Behnood, Denis Kopylov, Manfred Hammer, Torsten Meier, Jens Förstner, and Polina R. Sharapova. “Gain-Induced Spectral Non-Degeneracy in Type-II Parametric down-Conversion.” ArXiv, 2026. https://doi.org/10.48550/ARXIV.2603.01656.","ama":"Taheri B, Kopylov D, Hammer M, Meier T, Förstner J, Sharapova PR. Gain-induced spectral non-degeneracy in type-II parametric down-conversion. arXiv. Published online 2026. doi:10.48550/ARXIV.2603.01656","bibtex":"@article{Taheri_Kopylov_Hammer_Meier_Förstner_Sharapova_2026, title={Gain-induced spectral non-degeneracy in type-II parametric down-conversion}, DOI={10.48550/ARXIV.2603.01656}, journal={arXiv}, author={Taheri, Behnood and Kopylov, Denis and Hammer, Manfred and Meier, Torsten and Förstner, Jens and Sharapova, Polina R.}, year={2026} }","short":"B. Taheri, D. Kopylov, M. Hammer, T. Meier, J. Förstner, P.R. Sharapova, ArXiv (2026).","mla":"Taheri, Behnood, et al. “Gain-Induced Spectral Non-Degeneracy in Type-II Parametric down-Conversion.” ArXiv, 2026, doi:10.48550/ARXIV.2603.01656.","apa":"Taheri, B., Kopylov, D., Hammer, M., Meier, T., Förstner, J., & Sharapova, P. R. (2026). Gain-induced spectral non-degeneracy in type-II parametric down-conversion. ArXiv. https://doi.org/10.48550/ARXIV.2603.01656"},"year":"2026","language":[{"iso":"eng"}],"department":[{"_id":"15"},{"_id":"569"},{"_id":"170"},{"_id":"293"},{"_id":"35"},{"_id":"34"},{"_id":"61"},{"_id":"230"},{"_id":"623"},{"_id":"429"}],"user_id":"16199","_id":"64877","project":[{"_id":"168","name":"TRR 142 - Polaronen-Einfluss auf die optischen Eigenschaften von Lithiumniobat (B07*)"},{"name":"TRR 142 - Project Area C","_id":"56"},{"name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse","_id":"174"}],"status":"public","publication":"arXiv","type":"journal_article"},{"abstract":[{"text":"Orbital angular momentum (OAM) modes are an important resource used in various branches of quantum science and technology due to their unique helical structure and countably infinite basis. Generating light that simultaneously carries high-order orbital angular momenta and exhibits quantum correlations is a challenging task. In this work, we present a theoretical approach to the generation of correlated Schmidt modes carrying OAM via parametric down-conversion (PDC) in cascaded nonlinear systems (nonlinear interferometers) pumped by Laguerre–Gaussian beams. We demonstrate how the number of generated modes and their population can be controlled by varying the pump parameters, the gain of the PDC process, and the distance between the crystals. We investigate the angular displacement measurement uncertainty of these interferometers and demonstrate that it can overcome the classical shot noise limit.","lang":"eng"}],"publication":"APL Photonics","language":[{"iso":"eng"}],"year":"2025","issue":"1","title":"Schmidt modes carrying orbital angular momentum generated by cascaded systems pumped with Laguerre–Gaussian beams","date_created":"2026-01-26T15:48:54Z","publisher":"AIP Publishing","status":"public","type":"journal_article","article_number":"016112","article_type":"original","user_id":"55907","department":[{"_id":"15"},{"_id":"569"},{"_id":"170"},{"_id":"35"},{"_id":"429"}],"project":[{"_id":"53","name":"TRR 142: Maßgeschneiderte nichtlineare Photonik: Von grundlegenden Konzepten zu funktionellen Strukturen"},{"name":"TRR 142 - Project Area C","_id":"56"},{"name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse","_id":"174"},{"_id":"52","name":"Computing Resources Provided by the Paderborn Center for Parallel Computing"}],"_id":"63744","citation":{"chicago":"Scharwald, Dennis, Lucas Gehse, and Polina Sharapova. “Schmidt Modes Carrying Orbital Angular Momentum Generated by Cascaded Systems Pumped with Laguerre–Gaussian Beams.” APL Photonics 10, no. 1 (2025). https://doi.org/10.1063/5.0229802.","ieee":"D. Scharwald, L. Gehse, and P. Sharapova, “Schmidt modes carrying orbital angular momentum generated by cascaded systems pumped with Laguerre–Gaussian beams,” APL Photonics, vol. 10, no. 1, Art. no. 016112, 2025, doi: 10.1063/5.0229802.","ama":"Scharwald D, Gehse L, Sharapova P. Schmidt modes carrying orbital angular momentum generated by cascaded systems pumped with Laguerre–Gaussian beams. APL Photonics. 2025;10(1). doi:10.1063/5.0229802","short":"D. Scharwald, L. Gehse, P. Sharapova, APL Photonics 10 (2025).","bibtex":"@article{Scharwald_Gehse_Sharapova_2025, title={Schmidt modes carrying orbital angular momentum generated by cascaded systems pumped with Laguerre–Gaussian beams}, volume={10}, DOI={10.1063/5.0229802}, number={1016112}, journal={APL Photonics}, publisher={AIP Publishing}, author={Scharwald, Dennis and Gehse, Lucas and Sharapova, Polina}, year={2025} }","mla":"Scharwald, Dennis, et al. “Schmidt Modes Carrying Orbital Angular Momentum Generated by Cascaded Systems Pumped with Laguerre–Gaussian Beams.” APL Photonics, vol. 10, no. 1, 016112, AIP Publishing, 2025, doi:10.1063/5.0229802.","apa":"Scharwald, D., Gehse, L., & Sharapova, P. (2025). Schmidt modes carrying orbital angular momentum generated by cascaded systems pumped with Laguerre–Gaussian beams. APL Photonics, 10(1), Article 016112. https://doi.org/10.1063/5.0229802"},"intvolume":" 10","publication_status":"published","publication_identifier":{"issn":["2378-0967"]},"main_file_link":[{"url":"https://pubs.aip.org/aip/app/article-pdf/doi/10.1063/5.0229802/20352749/016112_1_5.0229802.pdf","open_access":"1"}],"doi":"10.1063/5.0229802","author":[{"id":"55907","full_name":"Scharwald, Dennis","last_name":"Scharwald","orcid":"0009-0007-5654-5412","first_name":"Dennis"},{"full_name":"Gehse, Lucas","last_name":"Gehse","first_name":"Lucas"},{"first_name":"Polina","id":"60286","full_name":"Sharapova, Polina","last_name":"Sharapova"}],"volume":10,"date_updated":"2026-02-01T13:19:20Z","oa":"1"},{"publication":"Optica Quantum","type":"journal_article","status":"public","abstract":[{"text":"Multimode squeezed light is an increasingly popular tool in photonic quantum technologies, including sensing, imaging, and computation. Meanwhile, the existing methods of its characterization are technically complicated, which reduces the level of squeezing, and mostly deal with a single mode at a time. Here, for the first time, to the best of our knowledge, we employ optical parametric amplification to characterize multiple squeezing eigenmodes simultaneously. We retrieve the shapes and squeezing degrees of all modes at once through direct detection followed by modal decomposition. This method is tolerant to inefficient detection and does not require a local oscillator. For a spectrally and spatially multimode squeezed vacuum, we characterize eight strongest spatial modes, obtaining squeezing and anti-squeezing values of up to −5.2 ± 0.2 dB and 8.6 ± 0.3 dB, respectively, despite the 50% detection loss. This work, being the first exploration of an optical parametric amplifier’s multimode capability for squeezing detection, paves the way for the real-time detection of multimode squeezing.","lang":"eng"}],"department":[{"_id":"15"},{"_id":"569"},{"_id":"170"},{"_id":"35"},{"_id":"429"}],"user_id":"55907","_id":"63745","project":[{"_id":"53","name":"TRR 142: Maßgeschneiderte nichtlineare Photonik: Von grundlegenden Konzepten zu funktionellen Strukturen"},{"_id":"56","name":"TRR 142 - Project Area C"},{"_id":"174","name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse"},{"name":"Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"}],"language":[{"iso":"eng"}],"article_type":"original","article_number":"36","issue":"1","publication_identifier":{"issn":["2837-6714"]},"publication_status":"published","intvolume":" 3","citation":{"ama":"Barakat I, Kalash M, Scharwald D, Sharapova P, Lindlein N, Chekhova M. Simultaneous measurement of multimode squeezing through multimode phase-sensitive amplification. Optica Quantum. 2025;3(1). doi:10.1364/opticaq.524682","ieee":"I. Barakat, M. Kalash, D. Scharwald, P. Sharapova, N. Lindlein, and M. Chekhova, “Simultaneous measurement of multimode squeezing through multimode phase-sensitive amplification,” Optica Quantum, vol. 3, no. 1, Art. no. 36, 2025, doi: 10.1364/opticaq.524682.","chicago":"Barakat, Ismail, Mahmoud Kalash, Dennis Scharwald, Polina Sharapova, Norbert Lindlein, and Maria Chekhova. “Simultaneous Measurement of Multimode Squeezing through Multimode Phase-Sensitive Amplification.” Optica Quantum 3, no. 1 (2025). https://doi.org/10.1364/opticaq.524682.","apa":"Barakat, I., Kalash, M., Scharwald, D., Sharapova, P., Lindlein, N., & Chekhova, M. (2025). Simultaneous measurement of multimode squeezing through multimode phase-sensitive amplification. Optica Quantum, 3(1), Article 36. https://doi.org/10.1364/opticaq.524682","bibtex":"@article{Barakat_Kalash_Scharwald_Sharapova_Lindlein_Chekhova_2025, title={Simultaneous measurement of multimode squeezing through multimode phase-sensitive amplification}, volume={3}, DOI={10.1364/opticaq.524682}, number={136}, journal={Optica Quantum}, publisher={Optica Publishing Group}, author={Barakat, Ismail and Kalash, Mahmoud and Scharwald, Dennis and Sharapova, Polina and Lindlein, Norbert and Chekhova, Maria}, year={2025} }","mla":"Barakat, Ismail, et al. “Simultaneous Measurement of Multimode Squeezing through Multimode Phase-Sensitive Amplification.” Optica Quantum, vol. 3, no. 1, 36, Optica Publishing Group, 2025, doi:10.1364/opticaq.524682.","short":"I. Barakat, M. Kalash, D. Scharwald, P. Sharapova, N. Lindlein, M. Chekhova, Optica Quantum 3 (2025)."},"year":"2025","volume":3,"author":[{"first_name":"Ismail","last_name":"Barakat","full_name":"Barakat, Ismail"},{"first_name":"Mahmoud","full_name":"Kalash, Mahmoud","last_name":"Kalash"},{"id":"55907","full_name":"Scharwald, Dennis","last_name":"Scharwald","orcid":"0009-0007-5654-5412","first_name":"Dennis"},{"first_name":"Polina","last_name":"Sharapova","id":"60286","full_name":"Sharapova, Polina"},{"last_name":"Lindlein","full_name":"Lindlein, Norbert","first_name":"Norbert"},{"last_name":"Chekhova","full_name":"Chekhova, Maria","first_name":"Maria"}],"date_created":"2026-01-26T15:57:13Z","publisher":"Optica Publishing Group","date_updated":"2026-02-10T22:44:44Z","oa":"1","doi":"10.1364/opticaq.524682","main_file_link":[{"url":"https://opg.optica.org/opticaq/viewmedia.cfm?uri=opticaq-3-1-36&seq=0","open_access":"1"}],"title":"Simultaneous measurement of multimode squeezing through multimode phase-sensitive amplification"},{"publication":"Physical Review A","language":[{"iso":"eng"}],"year":"2025","issue":"3","title":"Entanglement between dependent degrees of freedom: Quasiparticle correlations","publisher":"American Physical Society (APS)","date_created":"2025-09-12T10:37:34Z","status":"public","type":"journal_article","article_number":"032404","_id":"61245","project":[{"_id":"53","name":"TRR 142: Maßgeschneiderte nichtlineare Photonik: Von grundlegenden Konzepten zu funktionellen Strukturen"},{"name":"TRR 142 - Project Area A","_id":"54"},{"_id":"56","name":"TRR 142 - Project Area C"},{"_id":"61","name":"TRR 142; TP A04: Nichtlineare Quantenprozesstomographie und Photonik mit Polaritonen in Mikrokavitäten"},{"_id":"174","name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse"},{"_id":"266","name":"PhoQC: Photonisches Quantencomputing"}],"department":[{"_id":"15"},{"_id":"170"},{"_id":"297"},{"_id":"706"},{"_id":"35"},{"_id":"230"},{"_id":"623"},{"_id":"429"}],"user_id":"16199","intvolume":" 111","citation":{"chicago":"Barkhausen, Franziska, Laura Ares Santos, Stefan Schumacher, and Jan Sperling. “Entanglement between Dependent Degrees of Freedom: Quasiparticle Correlations.” Physical Review A 111, no. 3 (2025). https://doi.org/10.1103/physreva.111.032404.","ieee":"F. Barkhausen, L. Ares Santos, S. Schumacher, and J. Sperling, “Entanglement between dependent degrees of freedom: Quasiparticle correlations,” Physical Review A, vol. 111, no. 3, Art. no. 032404, 2025, doi: 10.1103/physreva.111.032404.","ama":"Barkhausen F, Ares Santos L, Schumacher S, Sperling J. Entanglement between dependent degrees of freedom: Quasiparticle correlations. Physical Review A. 2025;111(3). doi:10.1103/physreva.111.032404","apa":"Barkhausen, F., Ares Santos, L., Schumacher, S., & Sperling, J. (2025). Entanglement between dependent degrees of freedom: Quasiparticle correlations. Physical Review A, 111(3), Article 032404. https://doi.org/10.1103/physreva.111.032404","mla":"Barkhausen, Franziska, et al. “Entanglement between Dependent Degrees of Freedom: Quasiparticle Correlations.” Physical Review A, vol. 111, no. 3, 032404, American Physical Society (APS), 2025, doi:10.1103/physreva.111.032404.","short":"F. Barkhausen, L. Ares Santos, S. Schumacher, J. Sperling, Physical Review A 111 (2025).","bibtex":"@article{Barkhausen_Ares Santos_Schumacher_Sperling_2025, title={Entanglement between dependent degrees of freedom: Quasiparticle correlations}, volume={111}, DOI={10.1103/physreva.111.032404}, number={3032404}, journal={Physical Review A}, publisher={American Physical Society (APS)}, author={Barkhausen, Franziska and Ares Santos, Laura and Schumacher, Stefan and Sperling, Jan}, year={2025} }"},"publication_identifier":{"issn":["2469-9926","2469-9934"]},"publication_status":"published","doi":"10.1103/physreva.111.032404","date_updated":"2025-09-12T10:42:16Z","volume":111,"author":[{"first_name":"Franziska","full_name":"Barkhausen, Franziska","id":"63631","last_name":"Barkhausen"},{"first_name":"Laura","full_name":"Ares Santos, Laura","last_name":"Ares Santos"},{"first_name":"Stefan","last_name":"Schumacher","orcid":"0000-0003-4042-4951","full_name":"Schumacher, Stefan","id":"27271"},{"first_name":"Jan","full_name":"Sperling, Jan","id":"75127","orcid":"0000-0002-5844-3205","last_name":"Sperling"}]},{"status":"public","abstract":[{"text":"In this paper, we theoretically study the spectral and temporal properties of pulsed spontaneous parametric down-conversion (SPDC) generated in lossy waveguides. Our theoretical approach is based on the formalism of Gaussian states and the Langevin equation, which is elaborated for weak parametric down-conversion and photon-number-unresolved click detection. Using the example of frequency-degenerate type-II SPDC generated under the pump-idler group-velocity-matching condition, we show how the joint-spectral intensity, mode structure, normalized second-order correlation function, and Hong-Ou-Mandel interference pattern depend on internal losses of the SPDC process. We found that the joint-spectral intensity is almost insensitive to internal losses, while the second-order correlation function shows a strong dependence on them, being different for the signal and idler beams in the presence of internal losses. Based on the sensitivity of the normalized second-order correlation function, we show how its measurement can be used to experimentally determine internal losses.","lang":"eng"}],"type":"journal_article","publication":"Physical Review Research","language":[{"iso":"eng"}],"article_number":"033122","user_id":"16199","department":[{"_id":"15"},{"_id":"569"},{"_id":"170"},{"_id":"293"},{"_id":"288"},{"_id":"230"},{"_id":"623"},{"_id":"429"},{"_id":"35"}],"project":[{"name":"PhoQC: Photonisches Quantencomputing","_id":"266"},{"_id":"53","name":"TRR 142: Maßgeschneiderte nichtlineare Photonik: Von grundlegenden Konzepten zu funktionellen Strukturen"},{"_id":"56","name":"TRR 142 - Project Area C"},{"_id":"174","name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse"}],"_id":"62911","citation":{"bibtex":"@article{Kopylov_Stefszky_Meier_Silberhorn_Sharapova_2025, title={Spectral and temporal properties of type-II parametric down-conversion: The impact of losses during state generation}, volume={7}, DOI={10.1103/zp72-7qwl}, number={3033122}, journal={Physical Review Research}, publisher={American Physical Society (APS)}, author={Kopylov, Denis A. and Stefszky, Michael and Meier, Torsten and Silberhorn, Christine and Sharapova, Polina R.}, year={2025} }","short":"D.A. Kopylov, M. Stefszky, T. Meier, C. Silberhorn, P.R. Sharapova, Physical Review Research 7 (2025).","mla":"Kopylov, Denis A., et al. “Spectral and Temporal Properties of Type-II Parametric down-Conversion: The Impact of Losses during State Generation.” Physical Review Research, vol. 7, no. 3, 033122, American Physical Society (APS), 2025, doi:10.1103/zp72-7qwl.","apa":"Kopylov, D. A., Stefszky, M., Meier, T., Silberhorn, C., & Sharapova, P. R. (2025). Spectral and temporal properties of type-II parametric down-conversion: The impact of losses during state generation. Physical Review Research, 7(3), Article 033122. https://doi.org/10.1103/zp72-7qwl","ama":"Kopylov DA, Stefszky M, Meier T, Silberhorn C, Sharapova PR. Spectral and temporal properties of type-II parametric down-conversion: The impact of losses during state generation. Physical Review Research. 2025;7(3). doi:10.1103/zp72-7qwl","chicago":"Kopylov, Denis A., Michael Stefszky, Torsten Meier, Christine Silberhorn, and Polina R. Sharapova. “Spectral and Temporal Properties of Type-II Parametric down-Conversion: The Impact of Losses during State Generation.” Physical Review Research 7, no. 3 (2025). https://doi.org/10.1103/zp72-7qwl.","ieee":"D. A. Kopylov, M. Stefszky, T. Meier, C. Silberhorn, and P. R. Sharapova, “Spectral and temporal properties of type-II parametric down-conversion: The impact of losses during state generation,” Physical Review Research, vol. 7, no. 3, Art. no. 033122, 2025, doi: 10.1103/zp72-7qwl."},"intvolume":" 7","year":"2025","issue":"3","publication_status":"published","publication_identifier":{"issn":["2643-1564"]},"doi":"10.1103/zp72-7qwl","title":"Spectral and temporal properties of type-II parametric down-conversion: The impact of losses during state generation","author":[{"last_name":"Kopylov","full_name":"Kopylov, Denis A.","first_name":"Denis A."},{"first_name":"Michael","last_name":"Stefszky","full_name":"Stefszky, Michael","id":"42777"},{"id":"344","full_name":"Meier, Torsten","orcid":"0000-0001-8864-2072","last_name":"Meier","first_name":"Torsten"},{"first_name":"Christine","id":"26263","full_name":"Silberhorn, Christine","last_name":"Silberhorn"},{"first_name":"Polina R.","last_name":"Sharapova","full_name":"Sharapova, Polina R.","id":"60286"}],"date_created":"2025-12-05T09:33:36Z","volume":7,"date_updated":"2025-12-05T09:55:22Z","publisher":"American Physical Society (APS)"},{"doi":"10.48550/ARXIV.2507.07099","title":"Sensitivity and Topology of Exceptional Rings in Nonlinear Non-Hermitian Planar Optical Microcavities","author":[{"first_name":"Jan","last_name":"Wingenbach","full_name":"Wingenbach, Jan","id":"69187"},{"full_name":"Ares Santos, Laura ","last_name":"Ares Santos","first_name":"Laura "},{"last_name":"Ma","id":"59416","full_name":"Ma, Xuekai","first_name":"Xuekai"},{"last_name":"Sperling","orcid":"0000-0002-5844-3205","id":"75127","full_name":"Sperling, Jan","first_name":"Jan"},{"orcid":"0000-0003-4042-4951","last_name":"Schumacher","full_name":"Schumacher, Stefan","id":"27271","first_name":"Stefan"}],"date_created":"2025-08-25T11:15:22Z","date_updated":"2025-12-05T13:55:48Z","publisher":"Arxiv","citation":{"apa":"Wingenbach, J., Ares Santos, L., Ma, X., Sperling, J., & Schumacher, S. (2025). Sensitivity and Topology of Exceptional Rings in Nonlinear Non-Hermitian Planar Optical Microcavities. Arxiv. https://doi.org/10.48550/ARXIV.2507.07099","short":"J. Wingenbach, L. Ares Santos, X. Ma, J. Sperling, S. Schumacher, Arxiv (2025).","bibtex":"@article{Wingenbach_Ares Santos_Ma_Sperling_Schumacher_2025, title={Sensitivity and Topology of Exceptional Rings in Nonlinear Non-Hermitian Planar Optical Microcavities}, DOI={10.48550/ARXIV.2507.07099}, journal={Arxiv}, publisher={Arxiv}, author={Wingenbach, Jan and Ares Santos, Laura and Ma, Xuekai and Sperling, Jan and Schumacher, Stefan}, year={2025} }","mla":"Wingenbach, Jan, et al. “Sensitivity and Topology of Exceptional Rings in Nonlinear Non-Hermitian Planar Optical Microcavities.” Arxiv, Arxiv, 2025, doi:10.48550/ARXIV.2507.07099.","chicago":"Wingenbach, Jan, Laura Ares Santos, Xuekai Ma, Jan Sperling, and Stefan Schumacher. “Sensitivity and Topology of Exceptional Rings in Nonlinear Non-Hermitian Planar Optical Microcavities.” Arxiv, 2025. https://doi.org/10.48550/ARXIV.2507.07099.","ieee":"J. Wingenbach, L. Ares Santos, X. Ma, J. Sperling, and S. Schumacher, “Sensitivity and Topology of Exceptional Rings in Nonlinear Non-Hermitian Planar Optical Microcavities,” Arxiv, 2025, doi: 10.48550/ARXIV.2507.07099.","ama":"Wingenbach J, Ares Santos L, Ma X, Sperling J, Schumacher S. Sensitivity and Topology of Exceptional Rings in Nonlinear Non-Hermitian Planar Optical Microcavities. Arxiv. Published online 2025. doi:10.48550/ARXIV.2507.07099"},"year":"2025","language":[{"iso":"eng"}],"department":[{"_id":"15"},{"_id":"170"},{"_id":"297"},{"_id":"706"},{"_id":"705"},{"_id":"35"},{"_id":"230"},{"_id":"429"},{"_id":"27"}],"user_id":"16199","_id":"60992","project":[{"name":"Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"},{"_id":"53","name":"TRR 142: Maßgeschneiderte nichtlineare Photonik: Von grundlegenden Konzepten zu funktionellen Strukturen"},{"name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse","_id":"174"},{"_id":"56","name":"TRR 142 - Project Area C"}],"status":"public","abstract":[{"lang":"eng","text":"Non-Hermitian systems hosting exceptional points (EPs) exhibit enhanced sensitivity and unconventional mode dynamics. Going beyond isolated EPs, here we report on the existence of exceptional rings (ERs) in planar optical resonators with specific form of circular dichroism and TE-TM splitting. Such exceptional rings possess intriguing topologies as discussed earlier for condensed matter systems, but they remain virtually unexplored in presence of nonlinearity, for which our photonic platform is ideal. We find that when Kerr-type nonlinearity (or saturable gain) is introduced, the linear ER splits into two concentric ERs, with the larger-radius ring being a ring of third-order EPs. Transitioning from linear to nonlinear regime, we present a rigorous analysis of spectral topology and report enhanced and adjustable perturbation response in the nonlinear regime. Whereas certain features are specific to our system, the results on non-Hermitian spectral topology and nonlinearity-enhanced perturbation response are generic and equally relevant to a broad class of other nonlinear non-Hermitian systems, providing a universal framework for engineering ERs and EPs in nonlinear non-Hermitian systems."}],"publication":"Arxiv","type":"journal_article"},{"citation":{"apa":"Kopylov, D. A., Offen, C., Ares, L., Wembe Moafo, B. E., Ober-Blöbaum, S., Meier, T., Sharapova, P. R., & Sperling, J. (2025). Multiphoton, multimode state classification for nonlinear optical circuits. Physical Review Research, 7(3), Article 033062. https://doi.org/10.1103/sv6z-v1gk","mla":"Kopylov, Denis A., et al. “Multiphoton, Multimode State Classification for Nonlinear Optical Circuits.” Physical Review Research, vol. 7, no. 3, 033062, American Physical Society (APS), 2025, doi:10.1103/sv6z-v1gk.","short":"D.A. Kopylov, C. Offen, L. Ares, B.E. Wembe Moafo, S. Ober-Blöbaum, T. Meier, P.R. Sharapova, J. Sperling, Physical Review Research 7 (2025).","bibtex":"@article{Kopylov_Offen_Ares_Wembe Moafo_Ober-Blöbaum_Meier_Sharapova_Sperling_2025, title={Multiphoton, multimode state classification for nonlinear optical circuits}, volume={7}, DOI={10.1103/sv6z-v1gk}, number={3033062}, journal={Physical Review Research}, publisher={American Physical Society (APS)}, author={Kopylov, Denis A. and Offen, Christian and Ares, Laura and Wembe Moafo, Boris Edgar and Ober-Blöbaum, Sina and Meier, Torsten and Sharapova, Polina R. and Sperling, Jan}, year={2025} }","ieee":"D. A. Kopylov et al., “Multiphoton, multimode state classification for nonlinear optical circuits,” Physical Review Research, vol. 7, no. 3, Art. no. 033062, 2025, doi: 10.1103/sv6z-v1gk.","chicago":"Kopylov, Denis A., Christian Offen, Laura Ares, Boris Edgar Wembe Moafo, Sina Ober-Blöbaum, Torsten Meier, Polina R. Sharapova, and Jan Sperling. “Multiphoton, Multimode State Classification for Nonlinear Optical Circuits.” Physical Review Research 7, no. 3 (2025). https://doi.org/10.1103/sv6z-v1gk.","ama":"Kopylov DA, Offen C, Ares L, et al. Multiphoton, multimode state classification for nonlinear optical circuits. Physical Review Research. 2025;7(3). doi:10.1103/sv6z-v1gk"},"intvolume":" 7","year":"2025","issue":"3","publication_status":"published","publication_identifier":{"issn":["2643-1564"]},"doi":"10.1103/sv6z-v1gk","title":"Multiphoton, multimode state classification for nonlinear optical circuits","date_created":"2025-12-09T09:08:39Z","author":[{"full_name":"Kopylov, Denis A.","last_name":"Kopylov","first_name":"Denis A."},{"first_name":"Christian","last_name":"Offen","orcid":"0000-0002-5940-8057","full_name":"Offen, Christian","id":"85279"},{"first_name":"Laura","last_name":"Ares","full_name":"Ares, Laura"},{"first_name":"Boris Edgar","last_name":"Wembe Moafo","id":"95394","full_name":"Wembe Moafo, Boris Edgar"},{"first_name":"Sina","id":"16494","full_name":"Ober-Blöbaum, Sina","last_name":"Ober-Blöbaum"},{"first_name":"Torsten","orcid":"0000-0001-8864-2072","last_name":"Meier","full_name":"Meier, Torsten","id":"344"},{"full_name":"Sharapova, Polina R.","id":"60286","last_name":"Sharapova","first_name":"Polina R."},{"first_name":"Jan","id":"75127","full_name":"Sperling, Jan","orcid":"0000-0002-5844-3205","last_name":"Sperling"}],"volume":7,"publisher":"American Physical Society (APS)","date_updated":"2025-12-09T09:10:01Z","status":"public","abstract":[{"lang":"eng","text":"We introduce a new classification of multimode states with a fixed number of photons. This classification is based on the factorizability of homogeneous multivariate polynomials and is invariant under unitary transformations. The classes physically correspond to field excitations in terms of single and multiple photons, each of which is in an arbitrary irreducible superposition of quantized modes. We further show how the transitions between classes are rendered possible by photon addition, photon subtraction, and photon-projection nonlinearities. We explicitly put forward a design for a multilayer interferometer in which the states for different classes can be generated with state-of-the-art experimental techniques. Limitations of the proposed designs are analyzed using the introduced classification, providing a benchmark for the robustness of certain states and classes."}],"type":"journal_article","publication":"Physical Review Research","language":[{"iso":"eng"}],"article_number":"033062","user_id":"16199","department":[{"_id":"15"},{"_id":"569"},{"_id":"170"},{"_id":"293"},{"_id":"706"},{"_id":"636"},{"_id":"35"},{"_id":"230"},{"_id":"429"},{"_id":"623"}],"project":[{"name":"TRR 142: Maßgeschneiderte nichtlineare Photonik: Von grundlegenden Konzepten zu funktionellen Strukturen","_id":"53"},{"_id":"56","name":"TRR 142 - Project Area C"},{"name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse","_id":"174"},{"_id":"266","name":"PhoQC: Photonisches Quantencomputing"}],"_id":"62980"},{"status":"public","abstract":[{"lang":"eng","text":"We introduce a new classification of multimode states with a fixed number of photons. This classification is based on the factorizability of homogeneous multivariate polynomials and is invariant under unitary transformations. The classes physically correspond to field excitations in terms of single and multiple photons, each of which being in an arbitrary irreducible superposition of quantized modes. We further show how the transitions between classes are rendered possible by photon addition, photon subtraction, and photon-projection nonlinearities. We explicitly put forward a design for a multilayer interferometer in which the states for different classes can be generated with state-of-the-art experimental techniques. Limitations of the proposed designs are analyzed using the introduced classification, providing a benchmark for the robustness of certain states and classes."}],"type":"preprint","language":[{"iso":"eng"}],"department":[{"_id":"15"},{"_id":"170"},{"_id":"293"},{"_id":"706"},{"_id":"636"},{"_id":"230"},{"_id":"623"},{"_id":"429"},{"_id":"35"}],"user_id":"16199","_id":"62979","project":[{"_id":"53","name":"TRR 142: Maßgeschneiderte nichtlineare Photonik: Von grundlegenden Konzepten zu funktionellen Strukturen"},{"_id":"56","name":"TRR 142 - Project Area C"},{"name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse","_id":"174"},{"_id":"266","name":"PhoQC: Photonisches Quantencomputing"}],"citation":{"ama":"Meier T, Sharapova PR, Sperling J, Ober-Blöbaum S, Wembe Moafo BE, Offen C. Multiphoton, multimode state classification for nonlinear optical circuits. Published online 2025.","chicago":"Meier, Torsten, Polina R. Sharapova, Jan Sperling, Sina Ober-Blöbaum, Boris Edgar Wembe Moafo, and Christian Offen. “Multiphoton, Multimode State Classification for Nonlinear Optical Circuits,” 2025.","ieee":"T. Meier, P. R. Sharapova, J. Sperling, S. Ober-Blöbaum, B. E. Wembe Moafo, and C. Offen, “Multiphoton, multimode state classification for nonlinear optical circuits.” 2025.","short":"T. Meier, P.R. Sharapova, J. Sperling, S. Ober-Blöbaum, B.E. Wembe Moafo, C. Offen, (2025).","mla":"Meier, Torsten, et al. Multiphoton, Multimode State Classification for Nonlinear Optical Circuits. 2025.","bibtex":"@article{Meier_Sharapova_Sperling_Ober-Blöbaum_Wembe Moafo_Offen_2025, title={Multiphoton, multimode state classification for nonlinear optical circuits}, author={Meier, Torsten and Sharapova, Polina R. and Sperling, Jan and Ober-Blöbaum, Sina and Wembe Moafo, Boris Edgar and Offen, Christian}, year={2025} }","apa":"Meier, T., Sharapova, P. R., Sperling, J., Ober-Blöbaum, S., Wembe Moafo, B. E., & Offen, C. (2025). Multiphoton, multimode state classification for nonlinear optical circuits."},"year":"2025","title":"Multiphoton, multimode state classification for nonlinear optical circuits","author":[{"first_name":"Torsten","last_name":"Meier","orcid":"0000-0001-8864-2072","id":"344","full_name":"Meier, Torsten"},{"last_name":"Sharapova","full_name":"Sharapova, Polina R.","id":"60286","first_name":"Polina R."},{"first_name":"Jan","orcid":"0000-0002-5844-3205","last_name":"Sperling","id":"75127","full_name":"Sperling, Jan"},{"first_name":"Sina","last_name":"Ober-Blöbaum","id":"16494","full_name":"Ober-Blöbaum, Sina"},{"last_name":"Wembe Moafo","full_name":"Wembe Moafo, Boris Edgar","id":"95394","first_name":"Boris Edgar"},{"id":"85279","full_name":"Offen, Christian","orcid":"0000-0002-5940-8057","last_name":"Offen","first_name":"Christian"}],"date_created":"2025-12-09T08:59:27Z","date_updated":"2025-12-09T09:10:23Z"},{"publication_identifier":{"issn":["2835-0103"]},"publication_status":"published","issue":"4","year":"2025","intvolume":" 2","citation":{"chicago":"Kopylov, Denis, Torsten Meier, and Polina R. Sharapova. “Bipartite Entanglement Extracted from Multimode Squeezed Light Generated in Lossy Waveguides.” APL Quantum 2, no. 4 (2025). https://doi.org/10.1063/5.0293116.","ieee":"D. Kopylov, T. Meier, and P. R. Sharapova, “Bipartite entanglement extracted from multimode squeezed light generated in lossy waveguides,” APL Quantum, vol. 2, no. 4, Art. no. 046116, 2025, doi: 10.1063/5.0293116.","ama":"Kopylov D, Meier T, Sharapova PR. Bipartite entanglement extracted from multimode squeezed light generated in lossy waveguides. APL Quantum. 2025;2(4). doi:10.1063/5.0293116","mla":"Kopylov, Denis, et al. “Bipartite Entanglement Extracted from Multimode Squeezed Light Generated in Lossy Waveguides.” APL Quantum, vol. 2, no. 4, 046116, AIP Publishing, 2025, doi:10.1063/5.0293116.","short":"D. Kopylov, T. Meier, P.R. Sharapova, APL Quantum 2 (2025).","bibtex":"@article{Kopylov_Meier_Sharapova_2025, title={Bipartite entanglement extracted from multimode squeezed light generated in lossy waveguides}, volume={2}, DOI={10.1063/5.0293116}, number={4046116}, journal={APL Quantum}, publisher={AIP Publishing}, author={Kopylov, Denis and Meier, Torsten and Sharapova, Polina R.}, year={2025} }","apa":"Kopylov, D., Meier, T., & Sharapova, P. R. (2025). Bipartite entanglement extracted from multimode squeezed light generated in lossy waveguides. APL Quantum, 2(4), Article 046116. https://doi.org/10.1063/5.0293116"},"publisher":"AIP Publishing","date_updated":"2026-01-12T13:23:36Z","volume":2,"author":[{"last_name":"Kopylov","id":"98502","full_name":"Kopylov, Denis","first_name":"Denis"},{"full_name":"Meier, Torsten","id":"344","last_name":"Meier","orcid":"0000-0001-8864-2072","first_name":"Torsten"},{"full_name":"Sharapova, Polina R.","id":"60286","last_name":"Sharapova","first_name":"Polina R."}],"date_created":"2026-01-12T13:18:51Z","title":"Bipartite entanglement extracted from multimode squeezed light generated in lossy waveguides","doi":"10.1063/5.0293116","publication":"APL Quantum","type":"journal_article","abstract":[{"lang":"eng","text":"Entangled two-mode Gaussian states constitute an important building block for continuous variable quantum computing and communication protocols. In this work, we theoretically study two-mode bipartite states, which are extracted from multimode light generated via type-II parametric downconversion (PDC) in lossy waveguides. For these states, we demonstrate that the squeezing quantifies entanglement and we construct a measurement basis, which results in the maximal bipartite entanglement. We illustrate our findings by numerically solving the spatial master equation for PDC in a Markovian environment. The optimal measurement modes are compared with two widely used broadband bases: the Mercer–Wolf basis (the first-order coherence basis) and the Williamson–Euler basis."}],"status":"public","_id":"63562","project":[{"name":"TRR 142: Maßgeschneiderte nichtlineare Photonik: Von grundlegenden Konzepten zu funktionellen Strukturen","_id":"53"},{"name":"TRR 142 - Project Area C","_id":"56"},{"name":"TRR 142 ; TP: C10: Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse","_id":"174"},{"_id":"266","name":"PhoQC: Photonisches Quantencomputing"}],"department":[{"_id":"15"},{"_id":"569"},{"_id":"170"},{"_id":"293"},{"_id":"429"},{"_id":"230"},{"_id":"623"},{"_id":"35"}],"user_id":"16199","article_number":"046116","language":[{"iso":"eng"}]},{"type":"journal_article","publication":"Physical Review A","status":"public","user_id":"75127","department":[{"_id":"623"},{"_id":"15"},{"_id":"170"},{"_id":"706"},{"_id":"429"}],"project":[{"grant_number":"231447078","name":"TRR 142 - C10: TRR 142 - Erzeugung und Charakterisierung von Quantenlicht in nichtlinearen Systemen: Eine theoretische Analyse (C10*)","_id":"174"}],"_id":"55140","language":[{"iso":"eng"}],"article_number":"012424","issue":"1","publication_status":"published","publication_identifier":{"issn":["2469-9926","2469-9934"]},"citation":{"ama":"Yasmin F, Sperling J. Entanglement-assisted quantum speedup: Beating local quantum speed limits. Physical Review A. 2024;110(1). doi:10.1103/physreva.110.012424","ieee":"F. Yasmin and J. Sperling, “Entanglement-assisted quantum speedup: Beating local quantum speed limits,” Physical Review A, vol. 110, no. 1, Art. no. 012424, 2024, doi: 10.1103/physreva.110.012424.","chicago":"Yasmin, Farha, and Jan Sperling. “Entanglement-Assisted Quantum Speedup: Beating Local Quantum Speed Limits.” Physical Review A 110, no. 1 (2024). https://doi.org/10.1103/physreva.110.012424.","mla":"Yasmin, Farha, and Jan Sperling. “Entanglement-Assisted Quantum Speedup: Beating Local Quantum Speed Limits.” Physical Review A, vol. 110, no. 1, 012424, American Physical Society (APS), 2024, doi:10.1103/physreva.110.012424.","short":"F. Yasmin, J. Sperling, Physical Review A 110 (2024).","bibtex":"@article{Yasmin_Sperling_2024, title={Entanglement-assisted quantum speedup: Beating local quantum speed limits}, volume={110}, DOI={10.1103/physreva.110.012424}, number={1012424}, journal={Physical Review A}, publisher={American Physical Society (APS)}, author={Yasmin, Farha and Sperling, Jan}, year={2024} }","apa":"Yasmin, F., & Sperling, J. (2024). Entanglement-assisted quantum speedup: Beating local quantum speed limits. Physical Review A, 110(1), Article 012424. https://doi.org/10.1103/physreva.110.012424"},"intvolume":" 110","year":"2024","author":[{"first_name":"Farha","last_name":"Yasmin","full_name":"Yasmin, Farha"},{"first_name":"Jan","id":"75127","full_name":"Sperling, Jan","last_name":"Sperling","orcid":"0000-0002-5844-3205"}],"date_created":"2024-07-09T10:27:33Z","volume":110,"date_updated":"2024-07-09T10:29:29Z","publisher":"American Physical Society (APS)","doi":"10.1103/physreva.110.012424","title":"Entanglement-assisted quantum speedup: Beating local quantum speed limits"},{"publication_identifier":{"isbn":["9789811279553","9789811279560"]},"publication_status":"published","year":"2024","citation":{"apa":"Zhang, H., Zuo, R., Yang, S., Trautmann, A., Song, X., Meier, T., & Yang, W. (2024). Analyzing High-Order Harmonic Generation in Solids Based on Semi-Classical Recollision Models. In High-Order Harmonic Generation in Solids. WORLD SCIENTIFIC. https://doi.org/10.1142/9789811279560_0006","short":"H. Zhang, R. Zuo, S. Yang, A. Trautmann, X. Song, T. Meier, W. Yang, in: High-Order Harmonic Generation in Solids, WORLD SCIENTIFIC, 2024.","bibtex":"@inbook{Zhang_Zuo_Yang_Trautmann_Song_Meier_Yang_2024, title={Analyzing High-Order Harmonic Generation in Solids Based on Semi-Classical Recollision Models}, DOI={10.1142/9789811279560_0006}, booktitle={High-Order Harmonic Generation in Solids}, publisher={WORLD SCIENTIFIC}, author={Zhang, Hongdan and Zuo, Ruixin and Yang, Shidong and Trautmann, Alexander and Song, Xiaohong and Meier, Torsten and Yang, Weifeng}, year={2024} }","mla":"Zhang, Hongdan, et al. “Analyzing High-Order Harmonic Generation in Solids Based on Semi-Classical Recollision Models.” High-Order Harmonic Generation in Solids, WORLD SCIENTIFIC, 2024, doi:10.1142/9789811279560_0006.","ama":"Zhang H, Zuo R, Yang S, et al. Analyzing High-Order Harmonic Generation in Solids Based on Semi-Classical Recollision Models. In: High-Order Harmonic Generation in Solids. WORLD SCIENTIFIC; 2024. doi:10.1142/9789811279560_0006","ieee":"H. Zhang et al., “Analyzing High-Order Harmonic Generation in Solids Based on Semi-Classical Recollision Models,” in High-Order Harmonic Generation in Solids, WORLD SCIENTIFIC, 2024.","chicago":"Zhang, Hongdan, Ruixin Zuo, Shidong Yang, Alexander Trautmann, Xiaohong Song, Torsten Meier, and Weifeng Yang. “Analyzing High-Order Harmonic Generation in Solids Based on Semi-Classical Recollision Models.” In High-Order Harmonic Generation in Solids. 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