Scattering theory of multilevel atoms interacting with arbitrary radiation fields

André Xuereb; Peter Domokos; Peter Horak; Tim Freegarde

doi:10.1088/0031-8949/2010/T140/014010

Scattering theory of multilevel atoms interacting with arbitrary radiation fields

André Xuereb
, Peter Domokos
, Peter Horak
, Tim Freegarde

School of Mathematics and Physics

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

3 Citations (Scopus)

14 Downloads (Pure)

Abstract

We present a generic transfer matrix approach for the description of the interaction of atoms possessing multiple ground state and excited state sublevels with light fields. This model allows us to treat multi-level atoms as classical scatterers in light fields modified by, in principle, arbitrarily complex optical components such as mirrors, resonators, dispersive or dichroic elements, or filters. We verify our formalism for two prototypical sub-Doppler cooling mechanisms and show that it agrees with the standard literature.

Original language	English
Article number	014010
Journal	Physica Scripta
Volume	2010
Issue number	T140
DOIs	https://doi.org/10.1088/0031-8949/2010/T140/014010
Publication status	Published - 30 Sept 2010

ASJC Scopus subject areas

General Physics and Astronomy

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Cite this

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AU - Xuereb, André

AU - Domokos, Peter

AU - Horak, Peter

AU - Freegarde, Tim

PY - 2010/9/30

Y1 - 2010/9/30

N2 - We present a generic transfer matrix approach for the description of the interaction of atoms possessing multiple ground state and excited state sublevels with light fields. This model allows us to treat multi-level atoms as classical scatterers in light fields modified by, in principle, arbitrarily complex optical components such as mirrors, resonators, dispersive or dichroic elements, or filters. We verify our formalism for two prototypical sub-Doppler cooling mechanisms and show that it agrees with the standard literature.

AB - We present a generic transfer matrix approach for the description of the interaction of atoms possessing multiple ground state and excited state sublevels with light fields. This model allows us to treat multi-level atoms as classical scatterers in light fields modified by, in principle, arbitrarily complex optical components such as mirrors, resonators, dispersive or dichroic elements, or filters. We verify our formalism for two prototypical sub-Doppler cooling mechanisms and show that it agrees with the standard literature.

U2 - 10.1088/0031-8949/2010/T140/014010

DO - 10.1088/0031-8949/2010/T140/014010

M3 - Article

SN - 0031-8949

VL - 2010

JO - Physica Scripta

JF - Physica Scripta

IS - T140

M1 - 014010

ER -

Scattering theory of multilevel atoms interacting with arbitrary radiation fields

Abstract

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