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Paper detail

Non-equilibrium quantum magnetism in a dipolar lattice gas

Research on quantum magnetism with ultra-cold gases in optical lattices is expected to open fascinating perspectives for the understanding of fundamental problems in condensed-matter physics. Here we report on the first realization of quantum magnetism using a degenerate dipolar gas in an optical lattice. In contrast to their non-dipolar counterparts, dipolar lattice gases allow for inter-site spin-spin interactions without relying on super-exchange energies, which constitutes a great advantage for the study of spin lattice models. In this paper we show that a chromium gas in a 3D lattice realizes a lattice model resembling the celebrated t-J model, which is characterized by a non-equilibrium spinor dynamics resulting from inter-site Heisenberg-like spin-spin interactions provided by non-local dipole-dipole interactions. Moreover, due to its large spin, chromium lattice gases constitute an excellent environment for the study of quantum magnetism of high-spin systems, as illustrated by the complex spin dynamics observed for doubly-occupied sites.

preprint2013arXivOpen access
Aurelie de PazArijit SharmaAmodsen ChotiaEtienne MarechalJohn HuckansPaolo PedriLuis SantosOlivier GorceixLaurent VernacBruno Laburthe-Tolra
cond-mat.quant-gas
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Aurelie de PazArijit SharmaAmodsen ChotiaEtienne MarechalJohn HuckansPaolo PedriLuis SantosOlivier GorceixLaurent VernacBruno Laburthe-Tolra

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