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Tailored devices for integrated quantum photonics : a synergetic circle of technology development, simulation and benchmarking / vorgelegt von Laura Padberg. Paderborn, 2022
Content
1 Preface
2 Introduction
3 Fundamental Theory
Integrated Optics
Waveguides
Mathematical Description
Numerical Methods
Directional Coupler
Nonlinear Optics
Nonlinear Material Response
Three-Wave Mixing
Nonlinear Susceptibility
Phase Matching
Birefringent Phase Matching
Quasi-Phase Matching
Quantum Dispersion Engineering
Parametric Down-Conversion
Joint Spectral Amplitude
Nonlinear Materials
Potassium Titanyl Phosphate
Crystallographic Structure of KTP
Optical Properties of KTP
Periodic Poling of KTP
Waveguides in KTP
Lithium Niobate On Insulator
Crystallographic Structure of LN
Optical Properties of LN
Periodic Poling of LNOI
Waveguides in LNOI
4 Technology
Potassium Titanyl Phosphate
State of the Art: Periodically Poled Waveguides in KTP
Phase Matching Techniques
Waveguide Fabrication Techniques
In-house Technology
Periodic Poling
Waveguide Fabrication
Lithium Niobate On Insulator
State of the Art: Periodically Poled Waveguides in LNOI
Phase Matching Techniques
Waveguide Fabrication Techniques
In-house Technology
Characterisation
State of the Art: Material and Optical Characterisation
Material Characterisation
Optical Characterisation
In-house Characterisation
Material Characterisation
Optical Characterisation
5 Technology Results
Potassium Titanyl Phosphate
Periodic Poling
Electric Field Distribution in KTP
Optimised Optical Monitoring
Domain Stability in KTP and RbKTP
Final Remarks for Periodic Poling of KTP and RbKTP
Waveguides
EDX Analysis
Spatial Modes and Propagation Losses
Modelling of Waveguides
Final Remarks for KTP/RbKTP Waveguides
Lithium Niobate On Insulator
Wafer Quality
Periodic Poling
Electrode Geometry
Electrode Lithography
Periodic Poling
Final Remarks for Periodic Poling of LNOI
Waveguides
Dry Etching
Sidewall Roughness Minimisation
Polishing
Propagation Losses
Final Remarks for LNOI Waveguides
Modelling of LNOI Structures
Modelling of Waveguides
Modelling of Couplers
Couplers
Final Remarks
6 Tailored Waveguide Sources
Potassium Titanyl Phosphate
State of the Art: Decorrelated Sources in KTP
KTP Source
Second-Harmonic Generation
Joint Spectral Intensity Measurements
Modelling
Lithium Niobate On Insulator
State of the Art: Sources in LNOI
LNOI Source
Second-Harmonic Generation
7 Conclusion and Outlook
Conclusion
Outlook
Acknowledgements
A Appendix
Patents
Publications
Conference Contributions
B References
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