Advanced soliton-train generation through drive field enhancement and multiple light storage effect in cold rubidium atoms

A. M. Alhasan

doi:10.1140/epjst/e2007-00141-8

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Advanced soliton-train generation through drive field enhancement and multiple light storage effect in cold rubidium atoms

Journal article

Peer reviewed

Advanced soliton-train generation through drive field enhancement and multiple light storage effect in cold rubidium atoms

A. M. Alhasan

The European physical journal. ST, Special topics, Vol.144(1), pp.277-282

01/05/2007

DOI: https://doi.org/10.1140/epjst/e2007-00141-8

Abstract

Physical Sciences

Physics

Physics, Multidisciplinary

Science & Technology

We report triple-colour time dependent excitation technique to generate atomic soliton-train via simultaneous light storing and enhancement of the retrieved consumed triple interaction of optical pulses. The constituents of the soliton train are shown to be Gaussian in shape and advancing in time. These solitons are the one dimensional solution of the coupled Liouville-von Neumann equation for the density matrix of the dressed atom and the reduced Maxwell's field equations.

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Title: Advanced soliton-train generation through drive field enhancement and multiple light storage effect in cold rubidium atoms
Creators - without role: A. M. Alhasan - Akademia Pomorska w Słupsku
Publication Details: The European physical journal. ST, Special topics, Vol.144(1), pp.277-282
Publisher: Springer Nature
Number of pages: 6
Identifiers: 9929258308331
Academic Unit: Shaqra University
Language: English
Resource Type: Journal article