High-resolution optical spectroscopy with a buffer-gas-cooled beam of BaH molecules


Abstract in English

Barium monohydride (BaH) is an attractive candidate for extending laser cooling and trapping techniques to diatomic hydrides. The apparatus and high-resolution optical spectroscopy presented here demonstrate progress toward this goal. A cryogenic buffer-gas-cooled molecular beam of BaH was constructed and characterized. Pulsed laser ablation into cryogenic helium buffer gas delivers $sim1times10^{10}$ molecules/sr/pulse in the X$^2Sigma^+$ ($v=0,N=1$) state of primary interest. More than $1times10^7$ of these molecules per pulse enter the downstream science region with forward velocities below 100 m/s and transverse temperature of 0.1 K. This molecular beam enabled high-resolution optical spectra of BaH in quantum states relevant to laser slowing and cooling. The reported measurements include hyperfine structure and magnetic $g$ factors in the X$^2Sigma^+$, B$^2Sigma^+$, and A$^2Pi_{1/2}$ states.

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