@article{12452,
  author = {Kirk Waiblinger and Jason Williams and José D'Incao},
  title = {Quenched Magneto-association of Ultracold Feshbach Molecules in Microgravity},
  abstract = {We study enhanced magneto-association of atoms into weakly bound molecules near a Feshbach resonance using a quench preparatory stage. In anticipation of experiments with NASA's Cold Atom Laboratory aboard the International Space Station, we assume as a baseline a dual-species  ( 87 Rb   and   41 K )  gas in a parameter regime enabled by a microgravity environment. It includes subnanokelvin temperatures and dual-species gases at densities as low as  10 8 / cm 3 . Our studies indicate that, in such a regime, traditional magneto-association schemes are inefficient due to the weak coupling between atomic and molecular states at low densities, thus requiring extremely long magnetic field sweeps. To address this issue we propose a modified scheme in which atoms are quenched to unitarity before proceeding with magneto-association. This modified scheme substantially improves molecular formation, allowing for up to 80% efficiency within timescales much shorter than those associated with atomic and molecular losses. We show that this scheme also applies at higher densities, therefore proving to be of interest in ground-based experiments as well.},
  year = {2021},
  journal = {Physical Review A},
  volume = {104},
  pages = {033310},
  month = {2021-09},
  url = {https://journals.aps.org/pra/abstract/10.1103/PhysRevA.104.033310},
  doi = {10.1103/PhysRevA.104.033310},
}