Faculty of Sciences | Researches | Operator reaction field theory in quantum optics: a study of one two-level atom in a broad-band squeezed vacuum without rotating wave approximation

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Document Details

Document Type	:	Article In Journal
Document Title	:	Operator reaction field theory in quantum optics: a study of one two-level atom in a broad-band squeezed vacuum without rotating wave approximation Operator reaction field theory in quantum optics: a study of one two-level atom in a broad-band squeezed vacuum without rotating wave approximation
Document Language	:	Arabic
Abstract	:	We review the use of operator reaction field theory in quantum optics by considering the problem of one atom in an isotropic three-dimensional broad-band squeezed vacuum. In these terms we give a quantum electrodynamical analysis of this system exact up to all contributions of order one in the ratio gamma omega(0)(-1), the ratio of the A-coefficient to the atomic resonance frequency. These terms include all of the counter-rotating terms at this order. At zero order, namely in the usual rotating wave approximation, we find the usual Einstein rate equation while we confirm that the fluorescence spectrum consists of two Lorentzian peaks. However, at order one we find an additional oscillating term in the rate equation and additional resonant dispersive terms correct for each of the two Lorentzian peaks in the fluorescence spectrum. Similar results are expected for broad-band correlated squeezed vacua of arbitrary, rather than isotropic, geometry.
Journal Name	:	JOURNAL OF OPTICS B-QUANTUM AND SEMICLASSICAL OPTICS
Volume	:	2
Issue Number	:	4
Publishing Year	:	2000 AH
Added Date	:	Tuesday, June 24, 2008

Researchers

Researcher Name (Arabic)	Researcher Name (English)	Researcher Type	Dr Grade	Email
Hassan SS	Hassan SS	Researcher
حنان باطرفي	Batarfi HA	Researcher		hbatarfi@kau.edu.sa
Bullough RK	Bullough RK	Researcher		Robin.Bullough@manchester.ac.uk

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