Unbiased QMC simulations of a bilayer t-J⊥-V model map a doping-driven transition from a spontaneous interlayer loop-current state to interlayer s-wave superconductivity, including a coexisting time-reversal-symmetry-breaking superconducting phase near the boundary.
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DQMC simulations of the tunable t'/t Hubbard model show suppression of nearest-neighbor antiferromagnetic correlations, enhancement of next-nearest-neighbor correlations linked to a low-T specific heat peak, and U-driven shifts in crossover points.
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Time-reversal symmetry breaking superconductivity in the presence of loop-current fluctuations
Unbiased QMC simulations of a bilayer t-J⊥-V model map a doping-driven transition from a spontaneous interlayer loop-current state to interlayer s-wave superconductivity, including a coexisting time-reversal-symmetry-breaking superconducting phase near the boundary.
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Interplay of magnetic and thermodynamic responses in the kagome-triangular system
DQMC simulations of the tunable t'/t Hubbard model show suppression of nearest-neighbor antiferromagnetic correlations, enhancement of next-nearest-neighbor correlations linked to a low-T specific heat peak, and U-driven shifts in crossover points.