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W2008170003 endingPage "26006" @default.
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W2008170003 abstract "We show that non-Abelian lattice gauge fields can be simulated with a single component ultra-cold atomic gas in an optical lattice potential. An optical lattice can be viewed as a Bravais lattice with a $N$-point basis. An atom located at different points of the basis can be considered as a {it particle} in different internal states. The appropriate engineering of tunneling amplitudes of atoms in an optical lattice allows one to realize U$(N)$ gauge potentials and control a mass of {it particles} that experience such non-Abelian gauge fields. We provide and analyze a concrete example of an optical lattice configuration that allows for simulation of a static U(2) gauge model with a constant Wilson loop and an adjustable mass of {it particles}. In particular, we observe that the non-zero mass creates large conductive gaps in the energy spectrum, which could be important in the experimental detection of the transverse Hall conductivity." @default.
W2008170003 created "2016-06-24" @default.
W2008170003 creator A5030040176 @default.
W2008170003 creator A5064234844 @default.
W2008170003 date "2014-07-01" @default.
W2008170003 modified "2023-10-15" @default.
W2008170003 title "Simulation of non-Abelian lattice gauge fields with a single-component gas" @default.
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W2008170003 doi "https://doi.org/10.1209/0295-5075/107/26006" @default.
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