Litcius/Paper detail

Resonant Dipolar Collisions of Ultracold Molecules Induced by Microwave Dressing

Zoe Z. Yan, Jee Woo Park, Yiqi Ni, Huanqian Loh, Sebastian Will, Tijs Karman, Martin W. Zwierlein

2020Physical Review Letters49 citationsDOIOpen Access PDF

Abstract

We demonstrate microwave dressing on ultracold, fermionic ^{23}Na^{40}K ground-state molecules and observe resonant dipolar collisions with cross sections exceeding 3 times the s-wave unitarity limit. The origin of these interactions is the resonant alignment of the approaching molecules' dipoles along the intermolecular axis, which leads to strong attraction. We explain our observations with a conceptually simple two-state picture based on the Condon approximation. Furthermore, we perform coupled-channel calculations that agree well with the experimentally observed collision rates. The resonant microwave-induced collisions found here enable controlled, strong interactions between molecules, of immediate use for experiments in optical lattices.

Topics & Concepts

DipolePhysicsMicrowaveAtomic physicsUnitarityMoleculeIntermolecular forceGround stateMolecular physicsQuantum mechanicsCold Atom Physics and Bose-Einstein CondensatesAdvanced Frequency and Time StandardsQuantum Information and Cryptography