Cold SO_2 molecules by Stark deceleration

201; 313; Abrahamsson; Anderson; Avdeenkov; Balakrishnan; Becker; Bethlem; Bethlem; Bethlem; Bethlem; Bethlem; C. Lisdat; Crompvoets; E. Tiemann; Ebata; G. Meijer; Heiner; Hudson; Jung; K. Yamanouchi; Krems; Krems; M. Nowak; Meerakker; Meerakker; Meerakker; Meerakker; O. Bucicov; Patel; S. Jung; Sawyer; Schwettmann; Tarbutt; Wittig

research

Cold SO_2 molecules by Stark deceleration

Authors: 201
313
Abrahamsson
Anderson
Avdeenkov
Balakrishnan
Becker
Bethlem
Bethlem
Bethlem
Bethlem
Bethlem
C. Lisdat
Crompvoets
E. Tiemann
Ebata
G. Meijer
Heiner
Hudson
Jung
K. Yamanouchi
Krems
Krems
M. Nowak
Meerakker
Meerakker
Meerakker
Meerakker
O. Bucicov
Patel
S. Jung
Sawyer
Schwettmann
Tarbutt
Wittig
Publication date: 10 December 2007
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

We produce SO_2 molecules with a centre of mass velocity near zero using a Stark decelerator. Since the initial kinetic energy of the supersonic SO_2 molecular beam is high, and the removed kinetic energy per stage is small, 326 deceleration stages are necessary to bring SO_2 to a complete standstill, significantly more than in other experiments. We show that in such a decelerator possible loss due to coupling between the motional degrees of freedom must be considered. Experimental results are compared with 3D Monte-Carlo simulations and the quantum state selectivity of the Stark decelerator is demonstrated.Comment: 7 pages, 5 figure