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    Quantum Criticality of one-dimensional multicomponent Fermi Gas with Strongly Attractive Interaction

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    Quantum criticality of strongly attractive Fermi gas with SU(3)SU(3) symmetry in one dimension is studied via the thermodynamic Bethe ansatz (TBA) equations.The phase transitions driven by the chemical potential μ\mu, effective magnetic field H1H_1, H2H_2 (chemical potential biases) are analyzed at the quantum criticality. The phase diagram and critical fields are analytically determined by the thermodynamic Bethe ansatz equations in zero temperature limit. High accurate equations of state, scaling functions are also obtained analytically for the strong interacting gases. The dynamic exponent z=2z=2 and correlation length exponent ν=1/2\nu=1/2 read off the universal scaling form. It turns out that the quantum criticality of the three-component gases involves a sudden change of density of states of one cluster state, two or three cluster states. In general, this method can be adapted to deal with the quantum criticality of multi-component Fermi gases with SU(N)SU(N) symmetry.Comment: 20 pages, 5 figures, submitted to J.Phys.A, revised versio
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