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Im Werk suchen
Opto-electronics for quantum communication at cryogenic temperatures / vorgelegt von Frederik Thiele ; [Mentor und Professor: Tim Bartley, Zweitprüfer: Professor Klaus Jöns]. Paderborn, 2023
Inhalt
Introduction
Reconfigurable Cryogenic Photonics
Cryogenic optical modulation
Theory: electro-optic modulation
Integrated cryogenic modulators
Cryogenic titanium in-diffused lithium niobate
Cryogenic thin-film lithium niobate
Cryogenic hybrid photonic platforms
Electro-optic characterization methods at cryogenic temperatures
Auxillary opto-electronics for cryogenic photonics
Single Photon Detection
Single photon avalanche photodiodes
Superconducting detectors
Application and capabilities of SNSPDs
Cryogenic transmission lines
Optical power delivery with cryogenic photodiodes
Pulsed operation of an SNSPD with a cryogenic photodiode
SPICE model of a cryogenic photodiode
Signal readout with opto-electronics
Optical readout amplitude estimation
Cryogenic Signal Amplification
SNSPD amplitude increase by the superconducting transition
Towards feed-forward modulation: An outlook
Summary
Publications and Contributions
First Author publications
Contributed Publications
Conference Contributions
Publications
Cryogenic electro-optic polarisation conversion in titanium in-diffused lithium niobate waveguides
Cryogenic electro-optic modulation in titanium in-diffused lithium niobate waveguides
Opto-electronic bias of a superconducting nanowire single photon detector using a cryogenic photodiode
All optical operation of a superconducting photonic interface
All optical operation of a superconducting photonic interface: supplementary material
Pyroelectric Influence on Lithium Niobate During the Thermal Transition for Cryogenic Integrated Photonics
Bibliography
Appendix
SPICE model of a cryogenic photodiode
Acknowledgements
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