Abstract
Effect of the detuning on the probe absorption spectra of a two-level system with and without a classically driven field in a squeezed vacuum is investigated. For a strong squeezing, there is a threshold which determines the positions and widths of the absorption peaks, for the squeezed parameter M. In a large detuning, the spectra exhibit some resemblance to the Fano spectrum. The squeezing-induced transparency occurs at the frequency 2{omega}{sub L} - {omega}{sub A} in the minimum-uncertainty squeezed vacuum. This effect is not phase-sensitive. (author). 15 refs, 8 figs.
Citation Formats
Swain, S, and Zhou, P.
Probe transparency in a two-level medium embedded by a squeezed vacuum.
IAEA: N. p.,
1994.
Web.
Swain, S, & Zhou, P.
Probe transparency in a two-level medium embedded by a squeezed vacuum.
IAEA.
Swain, S, and Zhou, P.
1994.
"Probe transparency in a two-level medium embedded by a squeezed vacuum."
IAEA.
@misc{etde_10112793,
title = {Probe transparency in a two-level medium embedded by a squeezed vacuum}
author = {Swain, S, and Zhou, P}
abstractNote = {Effect of the detuning on the probe absorption spectra of a two-level system with and without a classically driven field in a squeezed vacuum is investigated. For a strong squeezing, there is a threshold which determines the positions and widths of the absorption peaks, for the squeezed parameter M. In a large detuning, the spectra exhibit some resemblance to the Fano spectrum. The squeezing-induced transparency occurs at the frequency 2{omega}{sub L} - {omega}{sub A} in the minimum-uncertainty squeezed vacuum. This effect is not phase-sensitive. (author). 15 refs, 8 figs.}
place = {IAEA}
year = {1994}
month = {Aug}
}
title = {Probe transparency in a two-level medium embedded by a squeezed vacuum}
author = {Swain, S, and Zhou, P}
abstractNote = {Effect of the detuning on the probe absorption spectra of a two-level system with and without a classically driven field in a squeezed vacuum is investigated. For a strong squeezing, there is a threshold which determines the positions and widths of the absorption peaks, for the squeezed parameter M. In a large detuning, the spectra exhibit some resemblance to the Fano spectrum. The squeezing-induced transparency occurs at the frequency 2{omega}{sub L} - {omega}{sub A} in the minimum-uncertainty squeezed vacuum. This effect is not phase-sensitive. (author). 15 refs, 8 figs.}
place = {IAEA}
year = {1994}
month = {Aug}
}