Ginsburg criterion for an equilibrium superradiant model in the dynamic approach

Trache, M

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Ginsburg criterion for an equilibrium superradiant model in the dynamic approach

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Abstract

Some critical properties of an equilibrium superradiant model are discussed, taking into account the quantum fluctuations of the field variables. The critical region is calculated using the Ginsburg criterion, underlining the role of the atomic concentration as a control parameter of the phase transition. (author). 16 refs, 1 fig.

Authors:

Trache, M

Publication Date:

Oct 01, 1991

Product Type:

Technical Report

Report Number:

IC-91/330

Reference Number:

SCA: 665000; PA: AIX-23:046139; SN: 92000743355

Resource Relation:

Other Information: PBD: Oct 1991

Subject:

75 CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY; SUPERRADIANCE; FLUCTUATIONS; ACTION INTEGRAL; CRITICAL TEMPERATURE; HAMILTONIANS; MEAN-FIELD THEORY; 665000; PHYSICS OF CONDENSED MATTER

OSTI ID:

10145762

Research Organizations:

International Centre for Theoretical Physics (ICTP), Trieste (Italy)

Country of Origin:

IAEA

Language:

English

Other Identifying Numbers:

Other: ON: DE92630566; TRN: XA9231014046139

Availability:

OSTI; NTIS (US Sales Only); INIS

Submitting Site:

INIS

Size:

9 p.

Announcement Date:

Jul 05, 2005

Citation Formats

Trache, M. Ginsburg criterion for an equilibrium superradiant model in the dynamic approach. IAEA: N. p., 1991. Web.

Trache, M. Ginsburg criterion for an equilibrium superradiant model in the dynamic approach. IAEA.

Trache, M. 1991. "Ginsburg criterion for an equilibrium superradiant model in the dynamic approach." IAEA.

@misc{etde_10145762,
title = {Ginsburg criterion for an equilibrium superradiant model in the dynamic approach}
author = {Trache, M}
abstractNote = {Some critical properties of an equilibrium superradiant model are discussed, taking into account the quantum fluctuations of the field variables. The critical region is calculated using the Ginsburg criterion, underlining the role of the atomic concentration as a control parameter of the phase transition. (author). 16 refs, 1 fig.}
place = {IAEA}
year = {1991}
month = {Oct}
}

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