Scattering properties of the ultracold 133Cs2 triplet state

doi:10.1088/1674-1056/18/3/029

Abstract

Abstract The elastic scattering properties of ultracold ¹³³Cs₂ triplet state are investigated in detail. We construct a potential curve of the ¹³³Cs₂ triplet state, based on the latest ab initio molecular potential data and show how the scattering parameters are obtained by using three methods: the Numerov method, the semiclassical method and the variable phase method, where the scattering lengths of the ¹³³Cs₂ triplet state, i.e. 301.79a₀, 300.67a₀ and 310.81a₀ are obtained respectively, with a₀ being the Bohr radius. We also calculate the effective range and the number of bound states for the ¹³³Cs₂ triplet state. Our results are in agreement with the recent experimental data and the theoretical calculations. This confirms that the results of the scattering properties of the ultracold ¹³³Cs₂ triplet state, calculated by using these three methods, are reliable.

Keywords: scattering length effective range variable phase method

Received: 07 May 2008
Revised: 18 July 2008
Accepted manuscript online:

PACS:	34.50.-s	(Scattering of atoms and molecules)
	34.20.Cf	(Interatomic potentials and forces)
	34.20.-b	(Interatomic and intermolecular potentials and forces, potential energy surfaces for collisions)
	31.15.A-	(Ab initio calculations)
	31.15.xg	(Semiclassical methods)

Fund: Project supported by the National Science Foundation of China (Grant No 10574039 ) and the National Science Foundation of Henan Province, China (Grant No 2008A140007).

Cite this article:

Sun Jin-Feng(孙金锋), Du Bing-Ge(杜丙阁), Zhang Ji-Cai(张计才), Li Wei(李伟), and Zhu Zun-Lue(朱遵略) Scattering properties of the ultracold ¹³³Cs₂ triplet state 2009 Chin. Phys. B 18 1019

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Scattering properties of the ultracold ¹³³Cs₂ triplet state