Quantum Degenerate Mixtures of Cs and Yb

TL;DR

This paper reports the creation of quantum degenerate mixtures of cesium and ytterbium with both attractive and repulsive interactions, demonstrating efficient sympathetic cooling and exploring stability and miscibility in these mixtures.

Contribution

The study presents the first production of quantum degenerate Cs-Yb mixtures with controlled interspecies interactions and detailed analysis of their stability and miscibility properties.

Findings

Successful dual-species evaporation in a bichromatic optical trap.

Stable mixtures with attractive and repulsive interactions at specific scattering lengths.

Observation of partial miscibility in the repulsive interspecies interaction case.

Abstract

We report the production of quantum degenerate Bose-Bose mixtures of Cs and Yb with both attractive (Cs + $^{174}$Yb) and repulsive (Cs + $^{170}$Yb) interspecies interactions. Dual-species evaporation is performed in a bichromatic optical dipole trap that combines light at 1070 nm and 532 nm to enable control of the relative trap depths for Cs and Yb. Maintaining a trap which is shallower for Yb throughout the evaporation leads to highly efficient sympathetic cooling of Cs for both isotopic combinations at magnetic fields close to the Efimov minimum in the Cs three-body recombination rate at around 22 G. For Cs + $^{174}$Yb, we produce quantum mixtures with typical atom numbers of $N_\mathrm{Yb} \sim 5 \times 10^4$ and $N_\mathrm{Cs} \sim 5 \times 10^3$. We find that the attractive interspecies interaction (characterised by the scattering length $a_\mathrm{CsYb} = -75\,a_0$) is stabilised by the repulsive intraspecies interactions. For Cs + $^{170}$Yb, we produce quantum mixtures with typical atom numbers of $N_\mathrm{Yb} \sim 4 \times 10^4$, and $N_\mathrm{Cs} \sim 1 \times 10^4$. Here, the repulsive interspecies interaction ($a_\mathrm{CsYb} = 96\,a_0$) can overwhelm the intraspecies interactions, such that the mixture sits in a region of partial miscibility.