Add to ORKGAmplitude squeezing is calculated for multi-level closed-cycling atomic systems. These systems can last without atomic population inversion in any atomic bases. Maximum squeezing is obtained for the parameters in the region of lasing without inversion. A practical four-level system and an ideal three-level system are presented. The latter system is analyzed in some detail and the mechanism of generating amplitude squeezing is discussed
Solid state laser sources, such as diode-pumped Nd:YAG lasers, have given us CW laser light of high ...
Spatial variations of the laser mode and pumping rate are incorporated into the theory of convention...
Squeezing and entanglement of a two-mode cascade laser, produced by a three-level atom which is init...
We calculate the amplitude squeezing in the output of a coherently pumped four-level laser and compa...
The squeezing spectrum of the fluorescent light is investigated for a laser-driven three-level atom ...
Starting from a quantum description of multiple Λ-type three-level atoms driven with a coherent micr...
We introduce the concept of a squeezed laser, in which a squeezed cavity mode develops a macroscopic...
The occurrence of steady-state squeezing in a coherently driven three-level atom of the configuratio...
On the basis of the nondegenerate $\Lambda $ quantum-beat laser model, we introduce a coherent field...
Intensity squeezed light was successfully generated using semiconductor lasers with sub-Poissonian p...
We discuss the phase-sensitive noise properties of fluorescence emitted by three-level atoms coheren...
Using the formalism developed earlier, we treat spontaneous emission from a three-level atom (ladder...
A theoretical study is made of the steady-state intensity and squeezing properties of the fluorescen...
The interaction of an atomic two-level system and a squeezed vacuum leads to interesting novel effec...
We describe a scheme for creating quadrature- and intensity-squeezed atom lasers that do not require...
Solid state laser sources, such as diode-pumped Nd:YAG lasers, have given us CW laser light of high ...
Spatial variations of the laser mode and pumping rate are incorporated into the theory of convention...
Squeezing and entanglement of a two-mode cascade laser, produced by a three-level atom which is init...
We calculate the amplitude squeezing in the output of a coherently pumped four-level laser and compa...
The squeezing spectrum of the fluorescent light is investigated for a laser-driven three-level atom ...
Starting from a quantum description of multiple Λ-type three-level atoms driven with a coherent micr...
We introduce the concept of a squeezed laser, in which a squeezed cavity mode develops a macroscopic...
The occurrence of steady-state squeezing in a coherently driven three-level atom of the configuratio...
On the basis of the nondegenerate $\Lambda $ quantum-beat laser model, we introduce a coherent field...
Intensity squeezed light was successfully generated using semiconductor lasers with sub-Poissonian p...
We discuss the phase-sensitive noise properties of fluorescence emitted by three-level atoms coheren...
Using the formalism developed earlier, we treat spontaneous emission from a three-level atom (ladder...
A theoretical study is made of the steady-state intensity and squeezing properties of the fluorescen...
The interaction of an atomic two-level system and a squeezed vacuum leads to interesting novel effec...
We describe a scheme for creating quadrature- and intensity-squeezed atom lasers that do not require...
Solid state laser sources, such as diode-pumped Nd:YAG lasers, have given us CW laser light of high ...
Spatial variations of the laser mode and pumping rate are incorporated into the theory of convention...
Squeezing and entanglement of a two-mode cascade laser, produced by a three-level atom which is init...