Nonlinear radiation imprisonment in magneto-optical vapor traps

N. N. Bezuglov; A. F. Molisch; F. Fuso; M. Allegrini; A. Ekers

doi:10.1103/PhysRevA.77.063414

Nonlinear radiation imprisonment in magneto-optical vapor traps

N. N. Bezuglov
, A. F. Molisch
, F. Fuso
, M. Allegrini
, A. Ekers

Faculty of Science and Technology

St. Petersburg State University
Lund University
University of Pisa
National Research Council of Italy

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

We analyze nonlinear radiation imprisonment (RI) effects in an optically thick vapor in different temperature regimes. An analytical approach is proposed to treat nonlinear decay problems. Special attention is paid to vapor samples having curvilinear geometries (cylinder, sphere) and being excited by a strong laser pulse. We derive a number of new formulas for different radiative trapping factors as functions of opacity and propose a general approach for RI evaluation allowing us to deal with samples both at room and low, or very low, temperatures, such as those customarily achieved in magneto-optical trap (MOT) experiments. As a result, we predict a "subnatural" decay of radiation escaping from cold vapors, which can be envisioned as the basis for a sensitive and reliable MOT diagnostic tool.

Original language	English
Article number	063414
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	77
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevA.77.063414
Publication status	Published - 13 Jun 2008

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10.1103/PhysRevA.77.063414

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title = "Nonlinear radiation imprisonment in magneto-optical vapor traps",

abstract = "We analyze nonlinear radiation imprisonment (RI) effects in an optically thick vapor in different temperature regimes. An analytical approach is proposed to treat nonlinear decay problems. Special attention is paid to vapor samples having curvilinear geometries (cylinder, sphere) and being excited by a strong laser pulse. We derive a number of new formulas for different radiative trapping factors as functions of opacity and propose a general approach for RI evaluation allowing us to deal with samples both at room and low, or very low, temperatures, such as those customarily achieved in magneto-optical trap (MOT) experiments. As a result, we predict a {"}subnatural{"} decay of radiation escaping from cold vapors, which can be envisioned as the basis for a sensitive and reliable MOT diagnostic tool.",

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T1 - Nonlinear radiation imprisonment in magneto-optical vapor traps

AU - Bezuglov, N. N.

AU - Molisch, A. F.

AU - Fuso, F.

AU - Allegrini, M.

AU - Ekers, A.

PY - 2008/6/13

Y1 - 2008/6/13

N2 - We analyze nonlinear radiation imprisonment (RI) effects in an optically thick vapor in different temperature regimes. An analytical approach is proposed to treat nonlinear decay problems. Special attention is paid to vapor samples having curvilinear geometries (cylinder, sphere) and being excited by a strong laser pulse. We derive a number of new formulas for different radiative trapping factors as functions of opacity and propose a general approach for RI evaluation allowing us to deal with samples both at room and low, or very low, temperatures, such as those customarily achieved in magneto-optical trap (MOT) experiments. As a result, we predict a "subnatural" decay of radiation escaping from cold vapors, which can be envisioned as the basis for a sensitive and reliable MOT diagnostic tool.

AB - We analyze nonlinear radiation imprisonment (RI) effects in an optically thick vapor in different temperature regimes. An analytical approach is proposed to treat nonlinear decay problems. Special attention is paid to vapor samples having curvilinear geometries (cylinder, sphere) and being excited by a strong laser pulse. We derive a number of new formulas for different radiative trapping factors as functions of opacity and propose a general approach for RI evaluation allowing us to deal with samples both at room and low, or very low, temperatures, such as those customarily achieved in magneto-optical trap (MOT) experiments. As a result, we predict a "subnatural" decay of radiation escaping from cold vapors, which can be envisioned as the basis for a sensitive and reliable MOT diagnostic tool.

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DO - 10.1103/PhysRevA.77.063414

M3 - Article

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SN - 1050-2947

VL - 77

JO - Physical Review A - Atomic, Molecular, and Optical Physics

JF - Physical Review A - Atomic, Molecular, and Optical Physics

IS - 6

M1 - 063414

ER -

Nonlinear radiation imprisonment in magneto-optical vapor traps

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