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Optoelectrical cooling of polar molecules to sub-millikelvin temperatures (1511.09427v2)

Published 30 Nov 2015 in physics.atom-ph, physics.chem-ph, and quant-ph

Abstract: We demonstrate direct cooling of gaseous formaldehyde (H2CO) to the microkelvin regime. Our approach, optoelectrical Sisyphus cooling, provides a simple dissipative cooling method applicable to electrically trapped dipolar molecules. By reducing the temperature by three orders of magnitude and increasing the phase-space density by a factor of ~$10^4$ we generate an ensemble of $3\cdot10^5$ molecules with a temperature of about 420\mu K, populating a single rotational state with more than 80% purity.