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• W2240173233 abstract "Mott insulating ultracold gases possess a unique whole-atom exchange interaction which enables large quantum fluctuations between the Zeeman sublevels of each atom. By strengthening this interaction---either through the use of large-spin atoms or by tuning the particle-particle interactions via optical Feshbach resonance---one may enhance fluctuations and facilitate the appearance of the long-sought-after quantum spin liquid phase---all in the highly tunable environment of cold atoms. To illustrate the relationship between the spin magnitude, interaction strength, and resulting magnetic phases, we present and solve a mean-field theory for bosons optically confined to the one-particle-per-site Mott state, using both analytic and numerical methods. We find on square and triangular lattices for bosons of hyperfine spin $f>2$ that making the repulsive $s$-wave scattering length through the singlet channel small---relative to the higher-order scattering channels---accesses a short-range resonating valence bond (s-RVB) spin liquid phase." @default.
• W2240173233 created "2016-06-24" @default.
• W2240173233 creator A5013318063 @default.
• W2240173233 creator A5079104389 @default.
• W2240173233 date "2016-03-07" @default.
• W2240173233 modified "2023-10-14" @default.
• W2240173233 title "Spin liquid phases of large-spin Mott insulating ultracold bosons" @default.
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• W2240173233 doi "https://doi.org/10.1103/physrevb.93.094405" @default.
• W2240173233 hasPublicationYear "2016" @default.
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