Realization of a Cold Mixture of Fermionic Chromium and Lithium Atoms

Abstract

We report on the production of a novel cold mixture of fermionic 53Cr and 6Li atoms delivered by two Zeeman-slowed atomic beams and collected within a magneto-optical trap (MOT). For lithium, we obtain clouds of up to 4 \,108 atoms at temperatures of about 500\,μK. A gray optical molasses stage allows us to decrease the gas temperature down to 45(5)\,μK. For chromium, we obtain MOTs comprising up to 1.5\, 106 atoms. The availability of magnetically trappable metastable D-states, from which P-state atoms can radiatively decay onto, enables to accumulate into the MOT quadrupole samples of up to 107 53Cr atoms. After repumping D-state atoms back into the cooling cycle, a final cooling stage decreases the chromium temperature down to 145(5)\,μK. While the presence of a lithium MOT decreases the lifetime of magnetically trapped 53Cr atoms, we obtain, within a 5 seconds duty cycle, samples of about 4\, 106 chromium and 1.5\,108 lithium atoms. Our work provides a crucial step towards the production of degenerate Cr-Li Fermi mixtures.