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Orbital quantum magnetism in spin dynamics of strongly interacting magnetic lanthanide atoms

Published

Author(s)

Ming Li, Eite Tiesinga, Svetlana Kotochigova

Abstract

Laser cooled lanthanide atoms are ideal candidates with which to study strong and unconventional quantum magnetism with exotic phases. Here, we use state-of-the-art closed-coupling simulations to model quantum magnetism for pairs of ultracold spin-6 erbium lanthanide atoms placed in a deep optical lattice. In contrast to the widely used single-channel Hubbard model description of atoms and molecules in an optical lattice, we focus on the single-site multi-channel spin evolution due to spin-dependent contact, anisotropic van der Waals, and dipolar forces. This has allowed us to identify the leading mechanism, orbital anisotropy, that governs molecular spin dynamics among erbium atoms. The large magnetic moment and combined orbital angular momentum of the 4f- shell electrons are responsible for these strong anisotropic interactions and unconventional quantum magnetism. Multi- channel simulations of magnetic Cr atoms under similar trapping conditions show that their spin-evolution is controlled by spin- dependent contact interactions that are distinct in nature from the orbital anisotropy in Er. The role of an external magnetic field and the aspect ratio of the lattice site on spin dynamics is also investigated.
Citation
Physical Review A (Atomic, Molecular and Optical Physics)
Volume
97

Keywords

magnetism, laser cooled atoms, lanthanides, ultracold collisions

Citation

Li, M. , Tiesinga, E. and Kotochigova, S. (2018), Orbital quantum magnetism in spin dynamics of strongly interacting magnetic lanthanide atoms, Physical Review A (Atomic, Molecular and Optical Physics), [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=925537 (Accessed October 11, 2024)

Issues

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Created May 30, 2018, Updated October 12, 2021