BEGIN:VCALENDAR VERSION:2.0 PRODID:Data::ICal 0.22 BEGIN:VEVENT DESCRIPTION:Liyu Liu\, University of Virginia - Department of Physics\n\n
High temperature superconductivity is of high scientific interest. The underlying physics is captured by the Hubbar d model. Based on this model\, Anderson'\;s resonating valence bond (RV B)concepts indicate that the strong correlation and frustration are keys t o high temperature superconductivity. The triangular lattice Hubbard model is a paradigmatic model of a strongly correlated geometrically frustrated quantum system which exhibits a rich phase diagram including the spin-liq uid state predicted by the RVB theory. However\, this system is numericall y difficult due to the frustration and the large ground state degeneracy. Quantum gas microscopes are at the forefront of quantum simulation\, provi ding a direct site-resolved detection of experimental realizations of the Hubbard model. We realized site-resolved imaging of fermionic Mott Insulat ors in a novel triangular optical lattice. We measured the spin-spin corre lations in these Mott insulators and compared the measured data to Quantum Monte Carlo simulations.
\n DTSTART:20220411T200000Z LOCATION:Ridley Hall\, Room G006 SUMMARY:Quantum gas microscopy of triangular-lattice Mott insulators END:VEVENT END:VCALENDAR