Research Foci Quantum Optics Nanophotonics Superconducting Single-Photon Detectors Further Affiliations at the University of Münster CV Projects Publications
2024 Becker , M. , Butz , M. , Lemli , D. , Schuck , C. and Risse , B. , 2024 . Learning Proposal Distributions in Simulated Annealing via Template Networks: A Case Study in Nanophotonic Inverse Design. in: A. Antonacopoulos , S. Chaudhuri , R. Chellappa , C. -L. Liu , S. Bhattacharya and U. Pal eds. 27th International Conference ICPR 2024 , Volume 27 : Pattern Recognition . Heidelberg : Springer . pp. 188 –202 . doi : https://doi.org/10.1007/978-3-031-78186-5_13 .Jaha , R. , Graham-Scott , C. A. , Abazi , A. S. , Pernice , W. , Schuck , C. and Ferrari , S. , 2024 . Kinetic Inductance and Jitter Dependence of the Intrinsic Photon Number Resolution in Superconducting Nanowire Single-Photon Detectors .. 1 doi : https://doi.org/10.48550/arXiv.2410.23162 .Chen , . , Nasir , . , Abazi , . , Eich , . , Sánchez-Postigo , . , Takeda , . , Mikami , . , Tate , . , Oki , . , Yamamoto , . , Schuck , . and Yoshioka , . , (in press) Coexistence of the Radial-Guided Mode and WGM in Azimuthal-Grating-Integrated Microring Lasers : ACS Photonics , p. null . doi : 10.1021/acsphotonics.4c00956 .Schuck , C. , 2024 . Nanophotonic Functionalities and Single Photon Detection for Integrated Quantum Photonics (invited) . PSC 2024 . Bridgetown doi : 10.1109/SUM60964.2024.10614563 .Schoonhoven , . , Tomishige , . , Abazi , . , Sánchez-Postigo , . , Chen , . , Mikami , . , Tate , . , Oki , . , Schuck , . and Yoshioka , . , 2024 . Inkjet-printed waveguide-coupled passive wedge-shaped microdisk resonator with refractive index tunability : Optical Materials Express , 14 (7 ), pp. 1767 –1778 .Optica Open Preprints doi : 10.1364/OME.528582 .Schuck , C. , 2024 . Quantum Sensing with waveguide- integrated Superconducting nanowire single photon detectors (invited) . International Conference “Quantum sensing” . Paris Laumann , . , Schlummer , . , Abazi , . , Borkamp , . , Lauströer , . , Pernice , . , Schuck , . , Schulz-Schaeffer , . and Heusler , . , (in press) Analyzing the Effective Use of Augmented Reality Glasses in University Physics Laboratory Courses for the Example Topic of Optical Polarization : Journal of Science Education and Technology doi : 10.1007/s10956-024-10112-0 .Schulte , . , Butz , . , Becker , . , Risse , . and Schuck , . , 2024 . Accelerating Finite-Difference Frequency-Domain Simulations for Inverse Design Problems in Nanophotonics using Deep Learning : Journal of the Optical Society of America B , 41 (4 ), pp. 1039 –1046 . doi : 10.1364/JOSAB.506159 .Peters , M. , Homrighausen , J. , Buskasper , T. , Abazi , S. A. , Wendland , D. , Schuck , C. and Gregor , M. , 2024 . Optically Detected Magnetic Resonance in Microdiamonds Embedded in Polymer Waveguides . DPG Frühjahrstagung Freiburg 2024 . Freiburg Schuck , C. , 2024 . Integration of photonic integrated circuit functionalities with superconducting nanowire single photon detectors (invited) . SPIE Quantum West 2024 . San Francisco doi : 10.1117/12.3012124 .Buskasper , T. and Schuck , C. , 2024 . Creation of a single SiV center in nanodiamond by ion implantation . DPG Frühjahrstagung Freiburg 2024 . Freiburg Humberg , N. , Sánchez-Postigo , A. and Schuck , C. , 2024 . Time-Bin QKD with Wavelength-Division Multiplexing . DPG Frühjahrstagung Freiburg 2024 . Freiburg Sánchez-Postigo , A. , Ginel-Moreno , P. , Graham-Scott , C. , Schmid , J. H. , Wangüemert-Pérez , . G. , Ortega-Moñux , A. , Cheben , P. , Molina-Fernández , Í. and Schuck , C. , 2024 . Engineering subwavelength-grating photonic integrated structures for quantum applications (invited) . SPIE Photonics West 2024 . San Francisco doi : 10.1117/12.3002731 .2023 Butz , M. , Abazi , A. S. , Ross , R. , Risse , B. and Schuck , C. , 2023 . Inverse Design of Nanophotonic Devices using Dynamic Binarization : Optics Express , 31 (10 ), pp. 15747 –15756 . doi : 10.1364/OE.484484 .Häußler , M. , Terhaar , R. , Wolff , M. A. , Gehring , H. , Beutel , F. , Hartmann , W. , Walter , N. , Tillmann , M. , Ahangarianabhari , M. , Wahl , M. , Röhlicke , T. , Rahn , H. -J. , Pernice , W. H. and Schuck , C. , 2023 . Scaling waveguide-integrated superconducting nanowire single-photon detector solutions to large numbers of independent optical channels : Review of Scientific Instruments , 94 (1 ), p. 013103 . doi : 10.1063/5.0114903 .Terhaar , R. , Rödiger , J. , Häußler , M. , Wahl , M. , Gehring , H. , Wolff , M. A. , Beutel , F. , Hartmann , W. , Walter , N. , Hanke , J. , Hanne , P. , Walenta , N. , Diedrich , M. , Perlot , N. , Tillmann , M. , Röhlicke , T. , Ahangarianabhari , M. , Schuck , C. and Pernice , W. H. , 2023 . Ultrafast quantum key distribution using fully parallelized quantum channels : Optics Express , 31 (2 ), pp. 2675 –2688 . doi : 10.1364/OE.469053 .Schlummer , P. , Abazi , A. , Borkamp , R. , Lauströer , J. , Schulz-Schaeffer , R. , Schuck , C. , Pernice , W. , Heusler , S. and Laumann , D. , 2023 . Seeing the unseen – enhancing and evaluating undergraduate polarization experiments with interactive Mixed-Reality technology : European Journal of Physics , 44 (6 ), p. 065701 . doi : 10.1088/1361-6404/acf0a7 .Sánchez-Postigo , . , Graham-Scott , . and Schuck , . , 2023 . Enhancing the Performance of Waveguide-Integrated Superconducting Nanowire Single-Photon Detectors Using Subwavelength Grating Metamaterials . in: IEEE eds. 23rd ICTON 2023 . New York City : Wiley-IEEE Press . pp. 1 –4 . doi : 10.1109/ICTON59386.2023.10207265 .Schütte , . , Wolff , . , Häußler , . , Gehring , . , Pernice , . and Schuck , . , 2023 . Waveguide-Integrated Superconducting Nanowire Arrays for Single Photon Detection with Number-Resolution . in: O. P. Group eds. CLEO 2023 . Washington, DC : Optica . p. FM2E.3 –FM2E.3 . doi : 10.1364/CLEO_FS.2023.FM2E.3 .Chen , . , Nasir , . , Abazi , . , Eich , . , Tomishige , . , Takeda , . , Mikami , . , Tate , . , Oki , . , Schuck , . and Yoshioka , . , 2023 . Active Clad Microring Laser with Diffraction Grating for Mutual Coupling of Radial Direction Mode and {WGM} . in: IEEE eds. CLEO & EQEC Europe 2023 . New York City : Wiley-IEEE Press . p. 1 –1 . doi : 10.1109/CLEO/Europe-EQEC57999.2023.10232578 .Takeda , . , Abazi , . , Eich , . , Tomishige , . , Hiramoto , . , Chen , . , Mikami , . , Tate , . , Oki , . , Schuck , . and Yoshioka , . , 2023 . Ultrasmall Submicrometer Sized Periodic Deposition on the Si3N4 Microring with Nanodispensing Technique . in: IEEE eds. CLEO Europe & EQEC 2023 . New York City : Wiley-IEEE Press . p. 1 –1 . doi : 10.1109/CLEO/Europe-EQEC57999.2023.10232309 .Jaha , . , Beutel , . , Wolff , . , Schuck , . , Pernice , . and Ferrari , . , 2023 . Decreasing SNSPD Jitter to Sub-3 ps Upon Increased Photon Illumination . in: O. P. Group eds. CLEO 2023 (2023), paper SM4G.3 . Washington, DC : Optica . p. SM4G.3 –SM4G.3 . doi : 10.1364/CLEO_SI.2023.SM4G.3 .Butz , . , Leifhelm , . , Becker , . , Risse , . and Schuck , . , 2023 . A Universal Approach to Nanophotonic Inverse Design through Reinforcement Learning . in: O. P. Group eds. CLEO 2023, paper STh4G.3 . Washington, DC : Optica . p. STh4G.3 –STh4G.3 . doi : 10.1364/CLEO_SI.2023.STh4G.3 .Schuck , . , 2023 . Integrating large numbers of superconducting nanowire single-photon detectors with nanophotonic waveguides . in: S. García-Blanco and P. Cheben eds. Integrated Optics: Devices, Materials, and Technologies XXVII . Bellingham, WA : SPIE . p. 34 –34 . doi : 10.1117/12.2655450 .Schuck , . , 2023 . Single-photon generation and manipulation in photonic integrated circuits . in: P. Hemmer and A. Migdall eds. Quantum Computing, Communication, and Simulation III . Bellingham, WA : SPIE . pp. PC124461 –PC1244615 . doi : 10.1117/12.2657902 .Schulte , L. , Butz , M. and Schuck , C. , 2023 . Deep Learning Accelerated FDFD Simulations in Context of Inverse-Design Algorithms . in: DPG eds. Quantenoptik und Photonik . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 1 –1 .Lemli , D. , Butz , M. and Schuck , C. , 2023 . Fabrication of Computer-Generated Nanophotonic Devices . in: DPG eds. Quantenoptik und Photonik . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 1 –1 .Abazi , A. , Schlummer , P. , Lauströer , J. , Stuhrmann , J. , Borkamp , R. , Pernice , W. , Schulz-Schaeffer , R. , Heusler , S. , Laumann , D. and Schuck , C. , 2023 . Teaching Quantum Optics and Quantum Cryptography with Augmented Reality Enhanced Experiments . in: DPG eds. Q 23 Optomechanics I & Optovibronics
. Bad Honnef : Deutsche Physikalische Gesellschaft . p. 1 –1 .Butz , M. , Leifhelm , A. , Becker , M. , Risse , B. and Schuck , C. , 2023 . A Novel Approach to Nanophotonic Black-Box Optimization Through Reinforcement Learning . in: DPG eds. Q 30 Nano-optics . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 1 –1 .Sánchez-Postigo , A. , Graham-Scott , C. and Schuck , C. , 2023 . Waveguide-coupled superconducting nanowire single-photon detectors enhanced by subwavelength grating metamaterials . in: DPG eds. Quantum Optics: Cavity and Waveguide QED II . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 1 –1 .Humberg , N. , Sánchez-Postigo , A. , Stellinga , D. , Pinkse , P. and Schuck , C. , 2023 . The Twente-Münster high-speed quantum key distribution link . in: DPG eds. Poster II (joint session QI/Q) . Hannover . p. 1 –1 .Graham-Scott , C. A. , Häußler , M. , Mikhailov , M. Yu. and Schuck , C. , 2023 . Waveguide-Intergrated Superconducting Nanowire Avalanche Single-Photon Detectors . in: DPG eds. Integrated Photonics II (joint session Q/QI) . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 1 –1 .Nenbangkaeo , C. , Eich , A. , Spiekermann , T. and Schuck , C. , 2023 . Multi-channel waveguide-integrated single photon sources . in: DPG eds. Single Quantum Emitters (joint session Q/QI) . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 1 –1 .Peters , M. , Abazi , A. , Wendland , D. , Buskasper , T. , Lindloge , L. , Gregor , M. and Schuck , C. , 2023 . 3D Printed Optical Waveguide Structures with Microdiamonds containing NV Centers . in: DPG eds. Quantenoptik und Photonik . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 1 –1 .Becker , M. , Riegelmeyer , J. , Seyfried , M. , Ravoo , B. -J. , Schuck , C. and Risse , B. , 2023 . Adaptive Photo-Chemical Nonlinearities for Optical Neural Networks : Advanced Intelligent Systems , 5 (12 ), Article 2300229 doi : 10.1002/aisy.202300229 .Bülter , A. , Tillmann , M. , Wahl , M. , Röhlicke , T. , Wernicke , D. , Wolff , M. , Häussler , M. , Walter , N. , Stegmüller , R. , Beutel , F. , Pernice , W. , Schuck , C. , Rödiger , J. , Langer , T. , Gerecke , M. and Ortmann , U. , (in press) High bandwidth photon detection enabled by a massively parallelized system . in: SPIE eds. Quantum Computing, Communication, and Simulation II . Bellingham, WA : SPIE . p. 1 –1 . doi : 10.1117/12.2608713 .Becker , M. , Drees , D. , Brückerhoff-Plückelmann , F. , Schuck , C. , Pernice , W. and Risse , B. , 2023 . Activation Functions in Non-Negative Neural Networks . Machine Learning and the Physical Sciences Workshop, NeurIPS . New Orleans Becker , M. , Riegelmeyer , J. , Seyfried , M. D. , Ravoo , B. J. , Schuck , C. and Risse , B. , 2023 . Adaptive Photochemical Nonlinearities for Optical Neural Networks : Advanced Intelligent Systems , 5 (12 ) doi : 10.1002/aisy.202300229 .Becker , M. , Butz , M. , Lemli , D. , Schuck , C. and Risse , B. , 2023 . Combinatorial Optimization via Memory Metropolis: Template Networks for Proposal Distributions in Simulated Annealing applied to Nanophotonic Inverse Design . Neural Information Processing Systems (NeurIPS) Workshop on AI for Accelerated Materials Design (AI4Mat-2023) . New Orleans Schuck , C. , 2023 . Integrating Superconducting Nanowire Single Photon Detectors with Nanophotonic Circuit Functionalities (invited) . in: I. 2023 eds. ISEC 2023 . Nanjing . p. 1 –1 .Bankwitz , . , Wolff , . , Abazi , . , Piel , . , Jin , . , Pernice , . , Wurstbauer , . and Schuck , . , 2023 . High-quality factor Ta2O5-on-insulator resonators with ultimate thermal stability : Optics Letters , 48 (21 ), pp. 5783 –5786 . doi : 10.1364/OL.499726 .Sánchez Postigo , A. , Graham Scott , C. , Gehring , H. , Schütte , J. , Beutel , F. , Terhaar , R. , Grottke , T. , Häußler , M. , Wolff , M. P. and Schuck , C. , 2023 . Photonic integrated quantum communication receivers with superconducting nanowire detectors . EQTC 2023 . Hannover Sánchez-Postigo , A. , Graham-Scott , C. and Schuck , C. , 2023 . Superconducting nanowire single-photon detectors integrated in sub-wavelength grating metamaterial waveguides . EQTC 2023 . Hannover Timmerkamp , . , Lüpken , . , Abazi , . , Bankwitz , . , Schuck , . and Fallnich , . , 2023 . Toward integrated tantalum pentoxide optical parametric oscillators : Optics Letters , 48 (17 ), pp. 4621 –4624 . doi : 10.1364/OL.496990 .2022 Lauströer , . , Schulz-Schaeffer , . , Schlummer , . , Heusler , . , Abazi , . , Schuck , . and Pernice , . H. , 2022 . Exploration wichtiger ästhetischer Qualitäten der Wissenschaftsillustration am Beispiel von MR- AR- und Web3DApplikationen zur Präsentation von Experimenten in der Quantenphysik . DPG-Frühjahrstagung . virtuell Hiramoto , . , Obata , . , Eich , . , Mikami , . , Nasir , . , Tate , . , Oki , . , Schuck , . and Yoshioka , . , 2022 . Direct printing of organic micro-disk cavity lasers on waveguides in optical integrated circuits . in: O. P. Group eds. Proceedings of the CLEO Pacific Rim (2022), paper CTuP11E\_03 . Washington, DC : Optica . p. 03 –03 . doi : 10.1364/CLEOPR.2022.CTuP11E_03 .Lomonte , . , Wolff , . , Beutel , . , Ferrari , . , Schuck , . , Pernice , . H. and Lenzini , . , 2022 . On-chip integration of superconducting nanowire single-photon detectors and reconfigurable optical circuits in lithium-niobate-on-insulator waveguides . in: E. Diamanti , S. Ducci , N. Treps and S. Whitlock eds. Quantum Technologies 2022 . Bellingham, WA : SPIE . p. 1213304 –1213304 . doi : 10.1117/12.2621288 .Beutel , . , Häußler , . , Terhaar , . , Wolff , . , Hartmann , . , Walter , . , Tillmann , . , Wahl , . , Röhlicke , . , Ahangarianabhari , . , Bülter , . , Wernicke , . , Perlot , . , Rödiger , . , Schuck , . and Pernice , . H. , 2022 . Ultra-fast single-photon counting with waveguide-integrated detectors for quantum technologies . in: M. Itzler , J. Bienfang and K. McIntosh eds. Advanced Photon Counting Techniques XVI . Bellingham, WA : SPIE . p. 1208907 –1208907 . doi : 10.1117/12.2620329 .Terhaar , . , Häußler , . , Gehring , . , Wolff , . , Beutel , . , Walter , . , Hartmann , . , Tillmann , . , Wahl , . , Röhlicke , . , Bülter , . , Wernicke , . , Perlot , . , Rödiger , . , Schuck , . and Pernice , . , 2022 . SPIE Proceedings 12009-66: Multi-channel waveguide-integrated superconducting nanowire single-photon detector system for ultrafast quantum key distribution . in: M. Razeghi , G. Khodaparast and M. Vitiello eds. Proceedings of SPIE - The International Society for Optical Engineering . Bellingham, WA : SPIE . p. 179357 –179357 . doi : 10.1117/12.2609887 .Kurschner , M. D. , Wolff , M. A. , Sommer , L. , Lyatti , M. and Schuck , C. , 2022 . Fabrication of NbTiN Superconducting Nanowire Single-Photon Detectors using Helium-Focused Ion Beam . in: DPG eds. Q 11 Quantum Technologies II . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 2 –2 .Riegelmeyer , J. , Eich , A. , Becker , M. , Risse , B. and Schuck , C. , 2022 . Development of a nanophotonic nonlinear unit for optical artificial neural networks . in: DPG eds. Q 31 Photonics I . Bad Honnef : Deutsche Physikalische Gesellschaft . pp. 8 –9 .Butz , M. , Leifhelm , A. , Becker , M. , Risse , B. and Schuck , C. , 2022 . Inverse Design of Nanophotonic Devices based on Reinforcement Learning . in: DPG eds. Q 38 Photonics II . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 2 –2 .Eich , A. , Spiekermann , T. , Gehring , H. , Sommer , L. , Bankwitz , J. , Pernice , W. and Schuck , C. , 2022 . Colloidal quantum dots as integrated single photon sources . in: DPG eds. Q 53 Nano-Optics II . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 4 –4 .Graham-Scott , C. A. , Baldauf , E. M. , Häußler , M. , Mikhailov , M. Yu. and Schuck , C. , 2022 . Waveguide-Intergrated Superconducting Nanowire Avalanche Single-Photon Detectors . in: DPG eds. Q 40 Optomechanics and Photonics . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 11 –11 .Spiekermann , T. , Eich , A. , Gehring , H. , Sommer , L. , Bankwitz , J. , Pernice , W. and Schuck , C. , 2022 . High-yield placement of colloidal quantum dot single-photon sources on nanophotonic chips . in: DPG eds. Q 41 Nano-Optics . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 12 –12 .Schlummer , P. , Abazi , A. , Lauströer , J. , Borkamp , R. , Schulz-Schaeffer , R. , Pernice , W. , Schuck , C. , Heusler , S. and Laumann , D. , 2022 . Die Rolle räumlicher Kontiguität beim Lernen am Experiment . in: DPG eds. DD 3 Neue / digitale Medien – Konzeption . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 3 –3 .Abazi , A. , Schlummer , P. , Lauströer , J. , Borkamp , R. , Schulz-Schaeffer , R. , Heusler , S. , Laumann , D. , Pernice , W. and Schuck , C. , 2022 . Technische Entwicklung eines Augmented-Reality-Experiments zu polarisationsverschränkten Photonenpaaren . in: DPG eds. DD 17 Neue / digitale Medien – AR . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 1 –1 .Lauströer , J. , Schulz-Schaeffer , R. , Stuhrmann , J. , Borkamp , R. , Abazi , A. , Schuck , C. , Pernice , W. H. , Heusler , S. , Schlummer , P. and Laumann , D. , 2022 . Exploration wichtiger ästhetischer Qualitäten der Wissenschaftsillustration am Beispiel von MR- AR- und Web3D-Applikationen zur Präsentation von Experimenten in der Quantenphysik . in: DPG eds. DD 37 Postersession 2: Präsentation von Experimenten . Bad Honnef : Deutsche Physikalische Gesellschaft . p. 2 –2 .Lomonte , . , Wolff , . , Beutel , . , Ferrari , . , Schuck , . , Pernice , . and Lenzini , . , 2022 . Monolithic integration of single-photon detectors with low-loss reconfigurable LNOI optical circuits . in: CLEO eds. Conference on Lasers and Electro-Optics . Washington, DC : Optica . p. FF4J.3 –FF4J.3 . doi : 10.1364/CLEO_QELS.2022.FF4J.3 .Grottke , . , Hartmann , . , Schuck , . and Pernice , . H. , 2022 . Integrated Slot Waveguide-Based Phase Shifter . in: M. Cesaria , L. A. Calà and J. Collins eds. {NATO} Science for Peace and Security Series B: Physics and Biophysics Light-Matter Interactions Towards the Nanoscale . Heidelberg : Springer . pp. 259 –262 . doi : 10.1007/978-94-024-2138-5_18 .Moody , . , Sorger , . J. , Juodawlkis , . W. , Loh , . , Sorace-Agaskar , . , Davanco , . , Chang , . , Bowers , . E. , Quack , . , Galland , . , Aharonovich , . , Wolff , . A. , Schuck , . , Sinclair , . , Lončar , . , Komljenovic , . , Weld , . , Mookherjea , . , Buckley , . , Radulaski , . , Reitzenstein , . , Pingault , . , Machielse , . , Mukhopadhyay , . , Akimov , . , Zheltikov , . , Agarwal , . S. , Srinivasan , . , Lu , . , Tang , . X. , Jiang , . , McKenna , . P. , Safavi-Naeini , . H. , Steinhauer , . , Elshaari , . W. , Zwiller , . , Davids , . S. , Martinez , . , Gehl , . , Chiaverini , . , Mehta , . K. , Romero , . , Lingaraju , . B. , Weiner , . M. , Peace , . , Cernansky , . , Lobino , . , Diamanti , . , Trigo , V. L. and Camacho , . M. , 2022 . 2022 Roadmap on Integrated Quantum Photonics : Journal of Physics: Photonics , 4 , p. 012501 . doi : 10.1088/2515-7647/ac1ef4 .Timmerkamp , M. , Lüpken , N. M. , Abazi , S. A. , Bankwitz , J. R. , Schuck , C. and Fallnich , C. , 2022 . Synchronously Pumped Tantalum Pentoxide Waveguide-based Optical Parametric Oscillator . in: P. Helfenstein eds. Proceedings of 10th EPS-QEOD Europhoton Conference on Solid-State, Fibre, and Waveguide Coherent Light Sources (EUROPHOTON 2022) . Les Ulis : EDP Sciences . p. 02024 –02024 . doi : 10.1051/epjconf/202226702024 .Timmerkamp , M. , Lüpken , N. M. , Abazi , S. A. , Bankwitz , J. , Schuck , C. and Fallnich , C. , 2022 . Optical Parametric Oscillator Based on Tantalum Pentoxide Waveguides . in: Optica Publishing Group eds. Proceedings of the Advanced Photonics Congress 2022 . Washington, DC : Optica . p. JTh4A.2 –JTh4A.2 . doi : 10.1364/BGPPM.2022.JTh4A.2 .Beutel, F; Grottke, T; Wolff, M A; Schuck, C; Pernice, W H P , 2022 . Cryo-compatible opto-mechanical low-voltage phase-modulator integrated with superconducting single-photon detectors : Optics Express , 30 (17 ), pp. 30066 –30074 . doi : 10.1364/OE.462163 .Gao , M. , Timmerkamp , M. , Lüpken , N. M. , Abazi , S. A. , Bankwitz , J. R. , Schuck , C. , Boller , K. -J. and Fallnich , C. , 2022 . Optical parametric oscillators based on integrated waveguides . PhoenixD Laser Day 2022 . Hannover Polini , . , Giazotto , . , Fong , . C. , Pop , . M. , Schuck , . , Boccali , . , Signorelli , . , D'Elia , . , Hadfield , . H. , Giovannetti , . , Rossini , . , Tredicucci , . , Efetov , . K. , Koppens , . H. , Jarillo-Herrero , . , Grassellino , . and Pisignano , . , 2022 . Materials and devices for fundamental quantum science and quantum technologies : arXiv , 2022 , p. 2201.09260 .Eich , . , Spiekermann , . C. , Gehring , . , Sommer , . , Bankwitz , . R. , Schrinner , . P. ,