by D. Capecchi, C. Cantillano, M. J. Mark, F. Meinert, A. Schindewolf, M. Landini, A. Saenz, F. Revuelta, H.-C. Nägerl
Abstract:
We report on the observation of confinement-induced resonances for strong three-dimensional (3D) confinement in a lattice potential. Starting from a Mott-insulator state with predominantly single-site occupancy, we detect loss and heating features at specific values for the confinement length and the 3D scattering length. Two independent models, based on the coupling between the center-of-mass and the relative motion of the particles as mediated by the lattice, predict the resonance positions to a good approximation, suggesting a universal behavior. Our results extend confinement-induced resonances to any dimensionality and open up an alternative method for interaction tuning and controlled molecule formation under strong 3D confinement.
Reference:
Observation of confinement-induced resonances in a 3D lattice,
D. Capecchi, C. Cantillano, M. J. Mark, F. Meinert, A. Schindewolf, M. Landini, A. Saenz, F. Revuelta, H.-C. Nägerl,
arXiv:2209.12504, 2022.
D. Capecchi, C. Cantillano, M. J. Mark, F. Meinert, A. Schindewolf, M. Landini, A. Saenz, F. Revuelta, H.-C. Nägerl,
arXiv:2209.12504, 2022.
Bibtex Entry:
@article{capecchi2022ooc,
title={Observation of confinement-induced resonances in a 3D lattice},
author={D. Capecchi and C. Cantillano and M. J. Mark and F. Meinert and A. Schindewolf and M. Landini and A. Saenz and F. Revuelta and H.-C. Nägerl},
year={2022},
month = {Sep},
eprint={2209.12504},
archivePrefix={arXiv},
primaryClass={cond-mat.quant-gas},
journal={arXiv:2209.12504},
abstract = {We report on the observation of confinement-induced resonances for strong three-dimensional (3D) confinement in a lattice potential. Starting from a Mott-insulator state with predominantly single-site occupancy, we detect loss and heating features at specific values for the confinement length and the 3D scattering length. Two independent models, based on the coupling between the center-of-mass and the relative motion of the particles as mediated by the lattice, predict the resonance positions to a good approximation, suggesting a universal behavior. Our results extend confinement-induced resonances to any dimensionality and open up an alternative method for interaction tuning and controlled molecule formation under strong 3D confinement.},
url = {http://arxiv.org/abs/2209.12504},
arXiv = {http://arxiv.org/abs/2209.12504}
}