Determinant quantum Monte Carlo simulations of the attractive SU(3) Fermi-Hubbard model reveal a trion liquid phase and a finite-temperature charge density wave order distinct from the SU(2) case, with the Fermi liquid to trion liquid crossover suggesting a zero-temperature quantum phase transition.
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Twisted mass fermions in the Hamiltonian two-flavor Schwinger model yield O(a) improvement and milder finite-volume effects once mass renormalization tunes the system to maximal twist.
New low-bond MPO construction, entanglement-aware MPS optimization, and Gutzwiller parameter tuning enable transcorrelated DMRG on 12x12 lattices, cutting ground-state energy errors by 3x to 17x versus standard DMRG at equal effort.
citing papers explorer
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Trion formation and ordering in the attractive SU(3) Fermi-Hubbard model
Determinant quantum Monte Carlo simulations of the attractive SU(3) Fermi-Hubbard model reveal a trion liquid phase and a finite-temperature charge density wave order distinct from the SU(2) case, with the Fermi liquid to trion liquid crossover suggesting a zero-temperature quantum phase transition.
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Fermion Discretization Effects in the Two-Flavor Lattice Schwinger Model: A Study with Matrix Product States
Twisted mass fermions in the Hamiltonian two-flavor Schwinger model yield O(a) improvement and milder finite-volume effects once mass renormalization tunes the system to maximal twist.
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Scaling up the transcorrelated density matrix renormalization group
New low-bond MPO construction, entanglement-aware MPS optimization, and Gutzwiller parameter tuning enable transcorrelated DMRG on 12x12 lattices, cutting ground-state energy errors by 3x to 17x versus standard DMRG at equal effort.