Response of a two-level atom to a classical field and a quantized cavity field of different frequencies

We study the interaction between a single mode electromagnetic field and a three-level [Formula: see text]-type atom in the presence of a classical homogenous gravitational field when the atom is prepared initially in the momentum eigenstate. The model includes the detuning parameters and the classical homogenous gravitational field. The wave function is calculated by using the Schrödinger equation for a coherent electromagnetic field and an atom is in its excited state. The influence of the detuning parameter and the classical homogenous gravitational field on the temporal behavior of the mean photon number, the normalized second-order correlation function and the normal squeezing is analyzed. The results show that the presence of these parameters has an important effect on these phenomena. The conclusion is reached and some features are given.

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Information Entropy Squeezing and Non-local Correlation Between a Two-Level Atom and Two-Mode Field Under the Classical Field Effect

Frontiers in Physics ◽

10.3389/fphy.2020.00278 ◽

2020 ◽

Vol 8 ◽

Author(s):

E. M. Khalil ◽

Sayed Abdel-Khalek ◽

Waad Albogami ◽

Jamel Bouslimi ◽

Sayed M. Abo-Dahab ◽

...

Keyword(s):

Information Entropy ◽

Field Effect ◽

Classical Field ◽

Local Correlation ◽

Entropy Squeezing ◽

Mode Field ◽

Level Atom ◽

Non Local

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A FOUR-LEVEL ATOM INTERACTING WITH A SINGLE-MODE CAVITY FIELD: DOUBLE Ξ-CONFIGURATION

Modern Physics Letters B ◽

10.1142/s0217984908016868 ◽

2008 ◽

Vol 22 (26) ◽

pp. 2587-2599 ◽

Cited By ~ 11

Author(s):

N. H. ABDEL-WAHAB

Keyword(s):

Coherent State ◽

Time Evolution ◽

Single Mode ◽

Cavity Field ◽

Field System ◽

Input Field ◽

Level Atom ◽

Constants Of Motion ◽

Q Function ◽

Single Mode Cavity

In this article, the problem of a double Ξ-type four-level atom interacting with a single-mode cavity field is considered. The considered model describes several distinct configurations of a four-level atom. Also, this model includes the detuning parameters of the atom-field system. We obtain the constants of motion and the wavefunction is derived when the atom is initially prepared in the upper state. We used this model for computing a number of the field aspects for the considered system. As an illustration, the model is used for studying the time evolution of the Mandel Q-parameter, amplitude-squared squeezing phenomenon and Q-function when the input field is considered in a coherent state. The results show that these phenomena are affected by the presence of detuning parameters.

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The damped interaction between a single-mode cavity field with Caldirola–Kanai Hamiltonian and a three-level atom

Chinese Journal of Physics ◽

10.1016/j.cjph.2019.01.021 ◽

2019 ◽

Vol 59 ◽

pp. 273-280 ◽

Cited By ~ 1

Author(s):

M. Kh. Ismail ◽

T.M. El-Shahat

Keyword(s):

Single Mode ◽

Cavity Field ◽

Level Atom ◽

Single Mode Cavity

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EMISSION SPECTRUM OF A TWO-LEVEL ATOM IN AN OPTOMECHANICAL CAVITY

Modern Physics Letters B ◽

10.1142/s0217984913502266 ◽

2013 ◽

Vol 27 (31) ◽

pp. 1350226

Author(s):

JI HUI TENG ◽

HONG FU WANG ◽

XUE XI YI

Keyword(s):

Emission Spectrum ◽

Single Atom ◽

Coupling Constant ◽

Cavity Field ◽

First Order ◽

Level Atom ◽

Optomechanical Cavity ◽

Cavity Mirror

The emission spectrum of a single atom inside an optomechanical cavity is studied in this paper. Our model consists of a single two-level atom coupled to a cavity with a moving end mirror. We numerically calculate the emission spectrum of the atom, taking the effect of the moving mirror into account. The dependence of the spectrum peak on the coupling between the moving mirror and the cavity field is analyzed. For weak cavity-mirror couplings, we expand the spectrum up to the first order of the coupling constant.

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