Slowing dynamics of a supersonic beam, simulation and experiments

Mehdi Hamamda; Thierry Taillandier-Loize; Jacques Baudon; Gabriel Dutier; Francisco Perales; Martial Ducloy

doi:10.1051/epjap/2015150266

Slowing dynamics of a supersonic beam, simulation and experiments

Mehdi Hamamda, Thierry Taillandier-Loize, Jacques Baudon, Gabriel Dutier, Francisco Perales, Martial Ducloy

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

Abstract

In this paper we present numerical and experimental methods aimed to study the evolution in space and time of a slowed supersonic beam. These generic methods are applicable to a variety of beams and decelerating techniques. The present implemented experimental set up is based upon Zeeman slowing of a metastable atom beam. The detection uses a channel-electron multiplier and a delay-line detector allowing time-of-flight analysis and numerical image reconstruction. In particular a depopulation effect at the centre of the beam is evidenced. In view of quantifying the slowing process, Monte Carlo calculations based on rate-equations are detailed.

Original language	English
Article number	30502
Journal	EPJ Applied Physics
Volume	71
Issue number	3
DOIs	https://doi.org/10.1051/epjap/2015150266
Publication status	Published - 1 Aug 2015
Externally published	Yes

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title = "Slowing dynamics of a supersonic beam, simulation and experiments",

abstract = "In this paper we present numerical and experimental methods aimed to study the evolution in space and time of a slowed supersonic beam. These generic methods are applicable to a variety of beams and decelerating techniques. The present implemented experimental set up is based upon Zeeman slowing of a metastable atom beam. The detection uses a channel-electron multiplier and a delay-line detector allowing time-of-flight analysis and numerical image reconstruction. In particular a depopulation effect at the centre of the beam is evidenced. In view of quantifying the slowing process, Monte Carlo calculations based on rate-equations are detailed.",

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AU - Taillandier-Loize, Thierry

AU - Baudon, Jacques

AU - Dutier, Gabriel

AU - Perales, Francisco

AU - Ducloy, Martial

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AB - In this paper we present numerical and experimental methods aimed to study the evolution in space and time of a slowed supersonic beam. These generic methods are applicable to a variety of beams and decelerating techniques. The present implemented experimental set up is based upon Zeeman slowing of a metastable atom beam. The detection uses a channel-electron multiplier and a delay-line detector allowing time-of-flight analysis and numerical image reconstruction. In particular a depopulation effect at the centre of the beam is evidenced. In view of quantifying the slowing process, Monte Carlo calculations based on rate-equations are detailed.

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Slowing dynamics of a supersonic beam, simulation and experiments

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