Formation of ultracold metastable RbCs molecules by short-range photoassociation

TL;DR

This study demonstrates the formation of ultracold metastable RbCs molecules via short-range photoassociation near the dissociation limit, revealing new pathways for creating heteronuclear alkali-metal molecules at short internuclear distances.

Contribution

It presents the first observation of ultracold metastable RbCs molecules formed through short-range photoassociation near the dissociation limit.

Findings

Molecules formed in their lowest triplet state.

Detection via resonant enhanced two-photon ionization.

Identification of rotational structure related to specific excited states.

Abstract

Ultracold metastable RbCs molecules are observed in a double species MOT through photoassociation near the Rb(5S$_{1/2}$)+Cs(6P$_{3/2}$) dissociation limit followed by radiative stabilization. The molecules are formed in their lowest triplet electronic state and are detected by resonant enhanced two-photon ionization through the previously unobserved $(3)^{3}\Pi \leftarrow a^{3}\Sigma^{+}$ band. The large rotational structure of the observed photoassociation lines is assigned to the lowest vibrational levels of the $0^+,0^-$ excited states correlated to the Rb(5P$_{1/2}$)+Cs(6S$_{1/2}$) dissociation limit. This demonstrates the possibility to induce direct photoassociation in heteronuclear alkali-metal molecules at short internuclear distance, as pointed out in [J. Deiglmayr \textit{et al.}, Phys. Rev. Lett. \textbf{101}, 13304 (2008)].