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A laser cooling scheme for precision measurements using fermionic barium monofluoride (<sup>137</sup>Ba<sup>19</sup>F) molecules

Felix Kogel, Marian Rockenhäuser, Ralf Albrecht, Tim Langen

2021New Journal of Physics32 citationsDOIOpen Access PDF

Abstract

Abstract We theoretically investigate the laser cooling of fermionic barium monofluoride ( 137 BaF) molecules, which are promising candidates for precision studies of weak parity violation and nuclear anapole moments. This molecular species features two nuclear spins, resulting in a hyperfine structure that is considerably more complicated than the one found in the usual laser-cooled diatomics. We use optical Bloch equations and rate equations to show that optical cycling, sub-Doppler cooling and bichromatic forces can all be realized under realistically achievable experimental conditions.

Topics & Concepts

PhysicsLaser coolingBariumHyperfine structureAtomic physicsLaserMoleculeRate equationParity (physics)Optical physicsOptical pumpingComputational physicsNuclear physicsCold Atom Physics and Bose-Einstein CondensatesAdvanced Frequency and Time StandardsAtomic and Subatomic Physics Research
A laser cooling scheme for precision measurements using fermionic barium monofluoride (<sup>137</sup>Ba<sup>19</sup>F) molecules | Litcius