An electrostatic glass actuator for ultrahigh vacuum: A rotating light trap for continuous beams of laser-cooled atoms

Füzesi, F.; Jornod, A.; Thomann, Pierre; Plimmer, M. D.; Dudle, Gregor; Moser, R.; Sache, L.; Bleuler, H.

doi:10.1063/1.2800777

An electrostatic glass actuator for ultrahigh vacuum: A rotating light trap for continuous beams of laser-cooled atoms

Author(s)

Füzesi, F.

Jornod, A.

Thomann, Pierre

Institut de physique

Plimmer, M. D.

Dudle, Gregor

Moser, R.

Sache, L.

Bleuler, H.

Date issued

2007

In

Review of Scientific Instruments, American Institute of Physics (AIP), 2007/78/103109/1-9

Abstract

This article describes the design, characterization, and performance of an electrostatic glass actuator adapted to an ultrahigh vacuum environment (10<sup>−8</sup> mbar). The three-phase rotary motor is used to drive a turbine that acts as a velocity-selective light trap for a slow continuous beam of laser-cooled atoms. This simple, compact, and nonmagnetic device should find applications in the realm of time and frequency metrology, as well as in other areas of atomic, molecular physics and elsewhere