Magnetic Moments of Lanthanide van der Waals Dimers

ORAL

Abstract

Loosely bound van der Waals dimers of lanthanide atoms, as might be obtained in ultracold atom experiments, are investigated. These molecules are known to exhibit a degree of quantum chaos, due to the strong anisotropic mixing of their angular spin and rotation degrees of freedom. Within a model of these molecules, we identify different realms of this anisotropic mixing, depending on whether the spin, the rotation, or both, are significantly mixed by the anisotropy. These realms are in turn generally correlated with the resulting magnetic moments of the states, providing alternate probes of the chaos in these molecules.

*This material is based upon work supported by the National Science Foundation under Grant Number PHY 1734006 and Grant Number PHY 1806971. L.D.A. acknowledges the financial support of the Czech Science Foundation (Grant No. 18-00918S).

Publication: J. McCann, J. L. Bohn, and L. D. Augustovi\v{c}ov\'{a}, ``Magnetic Moments of Lanthanide van der Waals Dimers,'' arXiv:2102.02146.

Presenters

  • John L Bohn

    • JILA and University of Colorado Boulder
    • University of Colorado
    • JILA, NIST, and Department of Physics, University of Colorado, Boulder, USA
    • University of Colorado, Boulder

Authors

  • John L Bohn

    • JILA and University of Colorado Boulder
    • University of Colorado
    • JILA, NIST, and Department of Physics, University of Colorado, Boulder, USA
    • University of Colorado, Boulder

  • Lucie Augustovi\v{c}ov\'{a}

    • Charles University, Prague, Czech Republic

  • Joseph McCann

    • University of Colorado Boulder