Probing Interactions between Ultracold Fermions
Atomic Physics
2009-11-13 v2 Other Condensed Matter
Abstract
At ultracold temperatures, the Pauli exclusion principle suppresses collisions between identical fermions. This has motivated the development of atomic clocks using fermionic isotopes. However, by probing an optical clock transition with thousands of lattice-confined, ultracold fermionic Sr atoms, we have observed density-dependent collisional frequency shifts. These collision effects have been measured systematically and are supported by a theoretical description attributing them to inhomogeneities in the probe excitation process that render the atoms distinguishable. This work has also yielded insights for zeroing the clock density shift.
Cite
@article{arxiv.0902.2558,
title = {Probing Interactions between Ultracold Fermions},
author = {G. K. Campbell and M. M. Boyd and J. W. Thomsen and M. J. Martin and S. Blatt and M. D. Swallows and T. L. Nicholson and T. Fortier and C. W. Oates and S. A. Diddams and N. D. Lemke and P. Naidon and P. Julienne and Jun Ye and A. D. Ludlow},
journal= {arXiv preprint arXiv:0902.2558},
year = {2009}
}
Comments
accepted to Science