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Collisions between Ultracold Molecules and Atoms in a Magnetic Trap

Sarunas Jurgilas, A. Chakraborty, C. J. H. Rich, Luke Caldwell, H. J. Williams, N. J. Fitch, B. E. Sauer, Matthew D. Frye, Jeremy M. Hutson, M. R. Tarbutt

2021Physical Review Letters58 citationsDOIOpen Access PDF

Abstract

We prepare mixtures of ultracold CaF molecules and Rb atoms in a magnetic trap and study their inelastic collisions. When the atoms are prepared in the spin-stretched state and the molecules in the spin-stretched component of the first rotationally excited state, they collide inelastically with a rate coefficient k_{2}=(6.6±1.5)×10^{-11} cm^{3}/s at temperatures near 100 μK. We attribute this to rotation-changing collisions. When the molecules are in the ground rotational state we see no inelastic loss and set an upper bound on the spin-relaxation rate coefficient of k_{2}<5.8×10^{-12} cm^{3}/s with 95% confidence. We compare these measurements to the results of a single-channel loss model based on quantum defect theory. The comparison suggests a short-range loss parameter close to unity for rotationally excited molecules, but below 0.04 for molecules in the rotational ground state.

Topics & Concepts

Excited stateAtomic physicsPhysicsGround stateInelastic collisionSpin (aerodynamics)Magnetic trapMoleculeUltracold atomRelaxation (psychology)Range (aeronautics)QuantumMagnetic fieldMaterials scienceNuclear physicsElectronQuantum mechanicsThermodynamicsPsychologyComposite materialSocial psychologyCold Atom Physics and Bose-Einstein CondensatesQuantum Information and CryptographyAdvanced Frequency and Time Standards
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