Add to ORKGAlthough the problem of electromagnetic radiation by a quantum harmonic oscillator is considered in textbooks on quantum mechanics, some of its aspects have remained unclear until now. By this, we mean that usually the initial quantum states of both the oscillator and the field are assumed to be characterized by a definite energy level of the oscillator and definite occupation numbers of the field modes. In connection with growing interest in squeezed states, it would be interesting to analyze the general case when the initial states of both subsystems are arbitrary superpositions of energy eigenstates. This problem was considered in other work, where the power of the spontaneous emission was calculated in the case of an arbitrary oscillato...
It is desirable to observe synchronization of quantum systems in the quantum regime, defined by the ...
The de Broglie-Bohm quantum trajectories are found in analytically closed forms for the eigenstates ...
Even for a single isolated constituent of matter, a recent generalization of quantum mechanics, call...
The concept of squeezing has so far been applied mainly to light, as is evidenced by the number of r...
The 'classical limit' of the q-analog quantized radiation field is studied paralleling conventional ...
It is known that the dynamics of two (Coulomb-interacting) nonrelativistic electrons confined by a p...
abstract: We describe a multi-parameter family of the minimum-uncertainty squeezed states for the ha...
The possibility of squeezed states generation for macroscopic mechanical oscillator is discussed. It...
The noise (variance squared) of a component of the electromagnetic field - considered as a quantum o...
The origin of Dicke cooperative states was studied by considering two harmonic oscillators driven by...
We study the interaction between the single-mode electromagnetic field and the pair of indistingui...
A translation-invariant state (a quantum Markov chain) is associated with a nearest-neighbor interac...
The Phase-dynamical properties of the squeezed vacuum state intensity-couple interacting with the tw...
The amplitude of the electric field of a mode of the electromagnetic field is not a fixed quantity: ...
We discuss the general matrix elements of the squeezing operator between number eigenstates of a har...
It is desirable to observe synchronization of quantum systems in the quantum regime, defined by the ...
The de Broglie-Bohm quantum trajectories are found in analytically closed forms for the eigenstates ...
Even for a single isolated constituent of matter, a recent generalization of quantum mechanics, call...
The concept of squeezing has so far been applied mainly to light, as is evidenced by the number of r...
The 'classical limit' of the q-analog quantized radiation field is studied paralleling conventional ...
It is known that the dynamics of two (Coulomb-interacting) nonrelativistic electrons confined by a p...
abstract: We describe a multi-parameter family of the minimum-uncertainty squeezed states for the ha...
The possibility of squeezed states generation for macroscopic mechanical oscillator is discussed. It...
The noise (variance squared) of a component of the electromagnetic field - considered as a quantum o...
The origin of Dicke cooperative states was studied by considering two harmonic oscillators driven by...
We study the interaction between the single-mode electromagnetic field and the pair of indistingui...
A translation-invariant state (a quantum Markov chain) is associated with a nearest-neighbor interac...
The Phase-dynamical properties of the squeezed vacuum state intensity-couple interacting with the tw...
The amplitude of the electric field of a mode of the electromagnetic field is not a fixed quantity: ...
We discuss the general matrix elements of the squeezing operator between number eigenstates of a har...
It is desirable to observe synchronization of quantum systems in the quantum regime, defined by the ...
The de Broglie-Bohm quantum trajectories are found in analytically closed forms for the eigenstates ...
Even for a single isolated constituent of matter, a recent generalization of quantum mechanics, call...