by P. Bataille, A. Litvinov, I. Manai, J. Huckans, F. Wiotte, A. Kaladjian, O. Gorceix, E. Maréchal, B. Laburthe-Tolra, M. Robert-de-Saint-Vincent
Abstract:
We introduce a spin-orbit coupling scheme, where a retroreflected laser beam selectively diffracts two spin components in opposite directions. Spin sensitivity is provided by sweeping through a magnetic-field sensitive transition while dark states ensure that spontaneous emission remains low. The scheme is adiabatic and thus inherently robust. This tailored spin-orbit coupling allows simultaneous measurements of the spin and momentum distributions of a strontium degenerate Fermi gas, and thus opens the path to momentum-resolved spin-correlation measurements on SU(N) quantum magnets.
Reference:
Adiabatic spin-dependent momentum transfer in an SU(N) degenerate Fermi gas,
P. Bataille, A. Litvinov, I. Manai, J. Huckans, F. Wiotte, A. Kaladjian, O. Gorceix, E. Maréchal, B. Laburthe-Tolra, M. Robert-de-Saint-Vincent,
Physical Review A, 102, 013317, 2020.
P. Bataille, A. Litvinov, I. Manai, J. Huckans, F. Wiotte, A. Kaladjian, O. Gorceix, E. Maréchal, B. Laburthe-Tolra, M. Robert-de-Saint-Vincent,
Physical Review A, 102, 013317, 2020.
Bibtex Entry:
@Article{Bataille2020,
author = {Bataille, P. and Litvinov, A. and Manai, I. and Huckans, J. and Wiotte, F. and Kaladjian, A. and Gorceix, O. and Maréchal, E. and Laburthe-Tolra, B. and Robert-de-Saint-Vincent, M.},
journal = {Physical Review A},
title = {Adiabatic spin-dependent momentum transfer in an {SU(N)} degenerate {Fermi }gas},
year = {2020},
issn = {2469-9934},
month = jul,
number = {1},
pages = {013317},
volume = {102},
abstract = {We introduce a spin-orbit coupling scheme, where a retroreflected laser beam selectively diffracts two spin components in opposite directions. Spin sensitivity is provided by sweeping through a magnetic-field sensitive transition while dark states ensure that spontaneous emission remains low. The scheme is adiabatic and thus inherently robust. This tailored spin-orbit coupling allows simultaneous measurements of the spin and momentum distributions of a strontium degenerate Fermi gas, and thus opens the path to momentum-resolved spin-correlation measurements on SU(N) quantum magnets.},
doi = {10.1103/physreva.102.013317},
publisher = {American Physical Society (APS)},
}