Enhanced Superexchange in a Tilted Mott Insulator

Enhanced Superexchange in a Tilted Mott Insulator

In an optical lattice, entropy and mass transport by first-order tunneling are much faster than spin transport via superexchange. Here we show that adding a constant force (tilt) suppresses first-order tunneling, but not spin transport, realizing new features for spin Hamiltonians. Suppression of th...

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Veröffentlicht in:Physical review letters 2020-01, Vol.124 (4), p.043204-043204, Article 043204
Hauptverfasser: Dimitrova, Ivana, Jepsen, Niklas, Buyskikh, Anton, Venegas-Gomez, Araceli, Amato-Grill, Jesse, Daley, Andrew, Ketterle, Wolfgang
Format: Artikel
Sprache:eng
Schlagworte:
Fluids
Mass transport
Optical lattices
Spin dynamics
Superfluidity
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Zusammenfassung:In an optical lattice, entropy and mass transport by first-order tunneling are much faster than spin transport via superexchange. Here we show that adding a constant force (tilt) suppresses first-order tunneling, but not spin transport, realizing new features for spin Hamiltonians. Suppression of the superfluid transition can stabilize larger systems with faster spin dynamics. For the first time in a many-body spin system, we vary superexchange rates by over a factor of 100 and tune spin-spin interactions via the tilt. In a tilted lattice, defects are immobile and pure spin dynamics can be studied.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.124.043204