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Paper detail

Finite temperature density matrix embedding theory

We describe a formulation of the density matrix embedding theory at finite temperature. We present a generalization of the ground-state bath orbital construction that embeds a mean-field finite-temperature density matrix up to a given order in the Hamiltonian, or the Hamiltonian up to a given order in the density matrix. We assess the performance of the finite-temperature density matrix embedding on the 1D Hubbard model both at half-filling and away from it, and the 2D Hubbard model at half-filling, comparing to exact data where available, as well as results from finite-temperature density matrix renormalization group, dynamical mean-field theory, and dynamical cluster approximations. The accuracy of finite-temperature density matrix embedding appears comparable to that of the ground-state theory, with at most a modest increase in bath size, and competitive with that of cluster dynamical mean-field theory.

preprint2019arXivOpen access
Chong SunUshnish RayZhi-Hao CuiMiles StoudenmireMichel FerreroGarnet Kin-Lic Chan
cond-mat.str-el
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Chong SunUshnish RayZhi-Hao CuiMiles StoudenmireMichel FerreroGarnet Kin-Lic Chan

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