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
- 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
- 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
- Acknowledgements
- Erklärung