SAMOP 2023 –
wissenschaftliches Programm
Q 16: Photonic Quantum Technologies (joint session Q/QI)
Dienstag, 7. März 2023, 11:00–13:00, A320
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11:00 |
Q 16.1 |
Fluorescence Excitation of Quantum Dots by Entangled Two-Photon Absorption — •Tobias B. Gäbler, Patrick Hendra, Nitish Jain, Erik Prenzel, and Markus Gräfe
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11:15 |
Q 16.2 |
Nonclassical states of light via high harmonic generation in semiconductors — •René Sondenheimer, Ivan Gonoskov, Christian Hünecke, Daniil Kartashov, Ulf Peschel, and Stefanie Gräfe
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11:30 |
Q 16.3 |
Interfacing a quantum memory based on warm atomic vapour with single photons from a semiconductor quantum dot — •Benjamin Maaß, Avijit Barua, Norman Vincenz Ewald, Leon Messner, Jin-Dong Song, Stephan Reitzenstein, and Janik Wolters
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11:45 |
Q 16.4 |
Room-temperature quantum memory: Interfacing atomic vapours and semiconductor quantum dots — •Esteban Gómez-López, Quirin Buchinger, Tobias Huber, and Oliver Benson
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12:00 |
Q 16.5 |
Raman control for ultrahigh fidelity spin gates for the generation of large entangled photonic states with group-IV vacancies — •Gregor Pieplow, Joseph H. D. Munns, Mariano I. Monsalve, and Tim Schröder
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12:15 |
Q 16.6 |
Ideal Single Photon Sources at Telecom Wavelengths — •Jonas Grammel, Julian Maisch, Simone Luca Portalupi, Peter Michler, and David Hunger
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12:30 |
Q 16.7 |
Spatially and spectraly indistinguishable single mode photons from domain-engineered crystal — •Baghdasar Baghdasaryan, Fabian Steinlechner, and Stephan Fritzsche
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12:45 |
Q 16.8 |
Towards time-multiplexed pseudo-on-demand generation of single-photons in the C-band based on SPDC — •Xavier Barcons Planas, Leon Meßner, Helen Chrzanowski, and Janik Wolters
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