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Theory of Hybrid Microwave–Photonic Quantum Devices
Christian Jirauschek
Associate Professorship of Computational Photonics
Research output
:
Contribution to journal
›
Article
›
peer-review
7
Scopus citations
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Keyphrases
Transmission Line
100%
Quantum Devices
100%
Hybrid Quantum
100%
Co-propagation
100%
Numerical Scheme
50%
Device Development
50%
Numerical Results
50%
Waveguide Structure
50%
Theoretical Description
50%
High Bandwidth
50%
Coupling Effect
50%
Optical Propagation
50%
Hybrid System
50%
Transmission Line Model
50%
Quantum Dots
50%
Device Simulation
50%
Short Pulse
50%
Ultra-low-noise
50%
Photodetector
50%
Active Regions
50%
Device-independent
50%
Hybrid Concept
50%
Cascade Structure
50%
Simplified Analytical Method
50%
Lindblad
50%
Photonics
50%
Quantum Cascade Laser
50%
Frequency Comb
50%
Microwave Generation
50%
Local Coupling
50%
Analytical Considerations
50%
Oscillation Pattern
50%
Microwave Electronics
50%
Microwave Propagation
50%
Hybrid Photonics
50%
Self-formation
50%
Interband Cascade
50%
Hybrid Microwave
50%
Physics
Quantum Device
100%
Transmission Line
75%
Photonics
50%
Photometer
25%
Quantum Dot
25%
Quantum Cascade Lasers
25%
Waveguide
25%
Frequency Comb
25%