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High-efficiency single-photon generation via large-scale active time multiplexing
F. Kaneda,
P. G. Kwiat
Physics
Electrical and Computer Engineering
Micro and Nanotechnology Lab
Materials Research Lab
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Keyphrases
High Efficiency
100%
Time-multiplexing
100%
Single-photon Source
100%
Single Photon Generation
100%
Active Time
100%
Single Photon
50%
Generation Process
25%
Power Generation Efficiency
25%
Multiplex
25%
Nonlinear Optical Processes
25%
Indistinguishability
25%
Quantum Information
25%
Communications Applications
25%
Detection Technology
25%
Single State
25%
Photon Generation
25%
Information Application
25%
Source Efficiency
25%
Single-mode Fiber
25%
Single-photon Detector
25%
Multi-photon States
25%
Optical Quantum Communication
25%
Ultra-low Loss
25%
Multiphoton Emission
25%
Optical Delay
25%
Operation Cycle
25%
Engineering
Multiplexing
100%
Active Time
100%
Limitations
50%
Single High
50%
Single Mode Fibers
50%
Optical Delay
50%
Photon Generation Process
50%
Physics
Multiplexing
100%
Quantum Information
50%
Quantum Communication
50%