Cooling and stabilization by collisions in a mixed ion–atom system

In mixed systems of trapped ions and cold atoms, the ions and atoms can coexist at different temperatures. This is primarily due to their different trapping and cooling mechanisms. The key questions of how ions can cool collisionally with cold atoms and whether the combined system allows stable coexistence, need to be answered. Here we experimentally demonstrate that rubidium ions cool in contact with magneto-optically trapped rubidium atoms, contrary to the general experimental expectation of ion heating. The cooling process is explained theoretically and substantiated with numerical simulations, which include resonant charge exchange collisions. The mechanism of single collision swap cooling of ions with atoms is discussed. Finally, it is experimentally and numerically demonstrated that the combined ion–atom system is intrinsically stable, which is critical for future cold chemistry experiments with such systems. Trapped ions and atoms coexist at different temperatures in mixed systems, and cooling of ions through collisions with atoms is required for the mixture to stabilize. Ravi et al . study these effects using rubidium atoms and ions, and find a collisional cooling mechanism leading to stability of the mixture.