A Fokker-Planck equation describing the coherent spontaneous emission from a system of 3-level atoms is derived using the atomic coherent states representation. The variables in this equation correspond directly to the number of atoms in the two excited states. The corresponding Langevin equations are discussed and their solutions for some special cases are presented
The problem of light scattering from an atomic system under cooperative conditions is analyzed. The ...
For an atom or molecule in which two transitions are driven by laser beams, a three‐state model is u...
The problem of light scattering from an atomic system under cooperative conditions is analyzed. The ...
A Fokker-Planck equation describing the coherent spontaneous emission from a system of 3-level atoms...
master equations describing coherent and incoherent emission from a system of multi-level atoms are ...
A general theory of spontaneous emission was developed in Papers I and II of this series. In the pre...
master equations describing coherent and incoherent emission from a system of multi-level atoms are ...
Spontaneous emission from a system of N identical two-level atoms is considered using a master equat...
We investigate control schemes for the dynamics of a collection of dipole-interacting three-level at...
We investigate control schemes for the dynamics of a collection of dipole-interacting three-level at...
We investigate control schemes for the dynamics of a collection of dipole-interacting three-level at...
A general theory for the treatment of spontaneous emission from a system of N identical two-level at...
Article on coherent excitation of a two-level atom driven by a far off-resonant classical field
We investigate superradiance and subradiance of indistinguishable atoms with quantized motional stat...
Media consisting of atoms trapped into long-lived quantum superposition states, often called coheren...
The problem of light scattering from an atomic system under cooperative conditions is analyzed. The ...
For an atom or molecule in which two transitions are driven by laser beams, a three‐state model is u...
The problem of light scattering from an atomic system under cooperative conditions is analyzed. The ...
A Fokker-Planck equation describing the coherent spontaneous emission from a system of 3-level atoms...
master equations describing coherent and incoherent emission from a system of multi-level atoms are ...
A general theory of spontaneous emission was developed in Papers I and II of this series. In the pre...
master equations describing coherent and incoherent emission from a system of multi-level atoms are ...
Spontaneous emission from a system of N identical two-level atoms is considered using a master equat...
We investigate control schemes for the dynamics of a collection of dipole-interacting three-level at...
We investigate control schemes for the dynamics of a collection of dipole-interacting three-level at...
We investigate control schemes for the dynamics of a collection of dipole-interacting three-level at...
A general theory for the treatment of spontaneous emission from a system of N identical two-level at...
Article on coherent excitation of a two-level atom driven by a far off-resonant classical field
We investigate superradiance and subradiance of indistinguishable atoms with quantized motional stat...
Media consisting of atoms trapped into long-lived quantum superposition states, often called coheren...
The problem of light scattering from an atomic system under cooperative conditions is analyzed. The ...
For an atom or molecule in which two transitions are driven by laser beams, a three‐state model is u...
The problem of light scattering from an atomic system under cooperative conditions is analyzed. The ...
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