Add to ORKGThe quantum mechanical limits to the fundamental noise performance of semiconductor lasers are reviewed. Recent advances in pushing the laser noise below theses limits are then discussed with emphasis on pump suppression, electronic feedback, and correlation techniques such as optical feedback. It is found that narrow-linewidth semiconductor lasers with sub-shot- noise photon statistics are within the reach of current technology
Solid state laser sources, such as diode-laser pumped Nd:YAG lasers, have given us a cw laser light ...
Amplitude-squeezed light with intensity fluctuations 29% below the standard quantum limit (SQL) is ...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
The quantum mechanical limits to the fundamental noise performance of semiconductor lasers are revie...
The quantum noise limits of a semiconductor laser with dispersive loss are examined theoretically an...
The quantum noise limits of a semiconductor laser with dispersive loss are examined theoretically an...
The quantum noise limits of a semiconductor laser with dispersive loss are examined theoretically an...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
We report on a semiconductor laser on silicon platform with record-low sub-kHz quantum noise-limited...
We report on a semiconductor laser on silicon platform with record-low sub-kHz quantum noise-limited...
We have investigated the intensity noise of single mode laser diodes, either free-running or using d...
We present the theory and measurements of the amplitude noise spectrum from a semiconductor laser wi...
The thesis focuses on the study of quantum noise in semiconductor and solid state lasers. The princi...
Solid state laser sources, such as diode-laser pumped Nd:YAG lasers, have given us a cw laser light ...
Amplitude-squeezed light with intensity fluctuations 29% below the standard quantum limit (SQL) is ...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
The quantum mechanical limits to the fundamental noise performance of semiconductor lasers are revie...
The quantum noise limits of a semiconductor laser with dispersive loss are examined theoretically an...
The quantum noise limits of a semiconductor laser with dispersive loss are examined theoretically an...
The quantum noise limits of a semiconductor laser with dispersive loss are examined theoretically an...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
We report on a semiconductor laser on silicon platform with record-low sub-kHz quantum noise-limited...
We report on a semiconductor laser on silicon platform with record-low sub-kHz quantum noise-limited...
We have investigated the intensity noise of single mode laser diodes, either free-running or using d...
We present the theory and measurements of the amplitude noise spectrum from a semiconductor laser wi...
The thesis focuses on the study of quantum noise in semiconductor and solid state lasers. The princi...
Solid state laser sources, such as diode-laser pumped Nd:YAG lasers, have given us a cw laser light ...
Amplitude-squeezed light with intensity fluctuations 29% below the standard quantum limit (SQL) is ...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...