Acceleration of cold Rb atoms by frequency modulated light pulses

The displacement of Rb atoms in a magneto-optical trap (MOT) caused by the force of a finite time series of counter-propagating frequency modulated light pulse pairs is measured as a function of the chirp of the pulses. The frequency modulated light pulses induced 85Rb 52S1/2 F=3 ↔ 85Rb 52P3/2 F...

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Veröffentlicht in:	The European physical journal. D, Atomic, molecular, and optical physics Atomic, molecular, and optical physics, 2007-07, Vol.44 (1), p.141-149
Hauptverfasser:	BAKOS, J. S, DJOTYAN, G. P, IGNHCZ, P. N, KEDVES, M. A, SERENYI, M, SÖRLEI, Zs, SZIGETI, J, TOTH, Z
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Sprache:	eng
Schlagworte:	Atomic and molecular physics Atomic properties and interactions with photons Chirp Exact sciences and technology Excitation Luminous intensity Mechanical effects of light on atoms, molecules and ions Optical cooling of atoms trapping Optical traps Photon interactions with atoms Physics Pulse propagation Qualitative analysis Rubidium Series (mathematics) Spatial distribution Time dependence
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container_title	The European physical journal. D, Atomic, molecular, and optical physics
container_volume	44
creator	BAKOS, J. S DJOTYAN, G. P IGNHCZ, P. N KEDVES, M. A SERENYI, M SÖRLEI, Zs SZIGETI, J TOTH, Z
description	The displacement of Rb atoms in a magneto-optical trap (MOT) caused by the force of a finite time series of counter-propagating frequency modulated light pulse pairs is measured as a function of the chirp of the pulses. The frequency modulated light pulses induced 85Rb 52S1/2 F=3 ↔ 85Rb 52P3/2 F'=2, 3, 4 excitation and de-excitation of the atoms. The result of this excitation de-excitation process is a force causing the acceleration and, consequently, the displacement of the maximum of the spatial distribution of the trap atoms. The time dependence of the populations of the levels of the atom are calculated — including also the 85Rb 52S1/2 F=2 and F'=1 states — as the result of the interaction with the finite train of counter propagating frequency modulated light pulses by the solution of the Bloch equations. As the result of the measurement the interval of the chirp of the frequency modulated light of given intensity where the transitions take place, are determined. The results of the experiment and the expectation on the basis of model calculations are in qualitative agreement.
doi_str_mv	10.1140/epjd/e2007-00144-3
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The time dependence of the populations of the levels of the atom are calculated — including also the 85Rb 52S1/2 F=2 and F'=1 states — as the result of the interaction with the finite train of counter propagating frequency modulated light pulses by the solution of the Bloch equations. As the result of the measurement the interval of the chirp of the frequency modulated light of given intensity where the transitions take place, are determined. 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subjects	Atomic and molecular physics Atomic properties and interactions with photons Chirp Exact sciences and technology Excitation Luminous intensity Mechanical effects of light on atoms, molecules and ions Optical cooling of atoms trapping Optical traps Photon interactions with atoms Physics Pulse propagation Qualitative analysis Rubidium Series (mathematics) Spatial distribution Time dependence
title	Acceleration of cold Rb atoms by frequency modulated light pulses
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