Hyperfine Structure of the $B^3\Pi_1$ State and Predictions of Optical Cycling Behavior in the $X\rightarrow B$ transition of TlF

Daniel J. McCarron; David DeMille; Eric B. Norrgard; Eustace R. Edwards; Larry R. Hunter; Matthew H. Steinecker; Neha S. Wadia; Shah Saad Alam; Stephen K. Peck

arxiv: 1702.02548 · v2 · pith:YG3YAWZRnew · submitted 2017-02-08 · ⚛️ physics.atom-ph

Hyperfine Structure of the B³Pi₁ State and Predictions of Optical Cycling Behavior in the Xrightarrow B transition of TlF

Eric B. Norrgard , Eustace R. Edwards , Daniel J. McCarron , Matthew H. Steinecker , David DeMille , Shah Saad Alam , Stephen K. Peck , Neha S. Wadia

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Larry R. Hunter

This is my paper

classification ⚛️ physics.atom-ph

keywords hyperfinerightarrowrotationalstatebranchingcyclingfractionsoptical

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The rotational and hyperfine spectrum of the $X^1\Sigma^+ \rightarrow B^3\Pi_1$ transition in TlF molecules was measured using laser-induced fluorescence from both a thermal and a cryogenic molecular beam. Rotational and hyperfine constants for the $B$ state are obtained. The large magnetic hyperfine interaction of the Tl nuclear spin leads to significant mixing of the lowest $B$ state rotational levels. Updated, more precise measurements of the $B\rightarrow X$ vibrational branching fractions are also presented. The combined rovibrational branching fractions allow for the prediction of the number of photons that can be scattered in a given TlF optical cycling scheme.

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Hyperfine Structure of the B³Pi₁ State and Predictions of Optical Cycling Behavior in the Xrightarrow B transition of TlF

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