Highly spin-polarized molecules via collisional microwave pumping
Abstract
We propose a general technique to produce cold spin-polarized molecules, in which rotationally excited states are first populated by coherent microwave excitation, and then allowed to spin-flip and relax via collisional quenching, which populates a single final spin state. We illustrate the high selectivity of the technique for 13C16O molecules immersed in a cold buffer gas of helium atoms, achieving a high degree (≥95\%) of nuclear spin polarization at 1 K.
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