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Luigi De Marco , Giacomo Valtolina , Kyle Matsuda , William G. Tobias , Jacob P. Covey , Jun Ye ·

YOU? · · 2019 · Open Access · · DOI: https://doi.org/10.1126/science.aau7230 · OA: W2910376611

Coaxing quantumness in a molecular gas A dilute atomic gas cooled down to very cold temperatures can enter the so-called quantum degenerate regime, where quantum properties of the gas come to the fore. This regime has been achieved for both bosonic and fermionic atoms, but molecules, with their many internal states, present a special challenge. De Marco et al. cooled a bulk gas of fermionic potassium-rubidium molecules to quantum degeneracy (see the Perspective by Zelevinsky). The authors first cooled atomic potassium and rubidium gases separately, then bound them together into potassium-rubidium molecules, and finally brought the molecules down to their ground state. The density profile of the molecular gas revealed the system's quantum nature, which in turn kept the gas stable by suppressing chemical reactions. Science , this issue p. 853 ; see also p. 820