Add to ORKGThe quantum noise limits of a semiconductor laser with dispersive loss are examined theoretically and experimentally. Using optical feedback from Cs vapor as a dispersive loss element we demonstrate almost 6 orders of magnitude reduction in the linewidth, to a 44 Hz level, and 1.9 dB amplitude noise squeezing below the standard quantum noise limit
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 demonstrate theoretically and experimentally self-quenching of the fundamental semiconductor lase...
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 mechanical limits to the fundamental noise performance of semiconductor lasers are revie...
The quantum mechanical limits to the fundamental noise performance of semiconductor lasers are revie...
We present the theory and measurements of the amplitude noise spectrum from a semiconductor laser wi...
We carried out the quantum mechanical treatment of the amplitude and phase noise characteristics of ...
We carried out the quantum mechanical treatment of the amplitude and phase noise characteristics of ...
We carried out the quantum mechanical treatment of the amplitude and phase noise characteristics of ...
Optical feedback from an external cavity containing an element of dispersive loss was used to reduce...
Optical feedback from an external cavity containing an element of dispersive loss was used to reduce...
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...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
We demonstrate theoretically and experimentally self-quenching of the fundamental semiconductor lase...
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 mechanical limits to the fundamental noise performance of semiconductor lasers are revie...
The quantum mechanical limits to the fundamental noise performance of semiconductor lasers are revie...
We present the theory and measurements of the amplitude noise spectrum from a semiconductor laser wi...
We carried out the quantum mechanical treatment of the amplitude and phase noise characteristics of ...
We carried out the quantum mechanical treatment of the amplitude and phase noise characteristics of ...
We carried out the quantum mechanical treatment of the amplitude and phase noise characteristics of ...
Optical feedback from an external cavity containing an element of dispersive loss was used to reduce...
Optical feedback from an external cavity containing an element of dispersive loss was used to reduce...
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...
Amplitude-squeezed states are generated from a room-temperature semiconductor laser using a combinat...
We demonstrate theoretically and experimentally self-quenching of the fundamental semiconductor lase...