Dynamical process of optically trapped singlet ground state 85Rb133Cs molecules produced via short-range photoassociation

Abstract

We investigate the dynamical process of optically trapped X1+ (v" = 0) state 85Rb133Cs molecules distributing in J" = 1 and J" = 3 rotational states. The considered molecules, formed from short-range photoassociation of mixed cold atoms, are subsequently confined in a crossed optical dipole trap. Based on a phenomenological rate equation, we provide a detailed study of the dynamics of 85Rb133Cs molecules during the loading and holding processes. The inelastic collisions of 85Rb133Cs molecules in the X1+ (v" = 0, J" = 1 and J" = 3) states with ultracold 85Rb (or 133Cs) atoms are measured to be 1.0 (2)×10-10 cm3s-1 (1.2 (3) × 10-10 cm3s-1). Our work provides a simple and generic procedure for studying the dynamical process of trapped cold molecules in the singlet ground states.