Floquet-induced kinetic anisotropy in hard-core dipolar bosons stabilizes checkerboard order at weaker interactions and produces a narrow checkerboard-supersolid phase.
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DMRG simulations of a moiré-modulated 1D Bose-Hubbard model reveal a local supersolid phase with staggered local density order, local off-diagonal coherence, exponentially decaying global correlations, and vanishing global structure factor.
Self-consistent Hartree-Fock and path-integral Monte Carlo simulations reveal a wide supersolid phase at low temperatures in 2D soft-core bosons, with possible hexatic order between normal solid and fluid phases.
citing papers explorer
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Floquet-tuned superfluid-checkerboard competition in dipolar bosons
Floquet-induced kinetic anisotropy in hard-core dipolar bosons stabilizes checkerboard order at weaker interactions and produces a narrow checkerboard-supersolid phase.
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Local supersolid in moir\'e modulated Bose-Hubbard model using density-matrix renormalization group method
DMRG simulations of a moiré-modulated 1D Bose-Hubbard model reveal a local supersolid phase with staggered local density order, local off-diagonal coherence, exponentially decaying global correlations, and vanishing global structure factor.
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Supersolid phase in two-dimensional soft-core bosons at finite temperature
Self-consistent Hartree-Fock and path-integral Monte Carlo simulations reveal a wide supersolid phase at low temperatures in 2D soft-core bosons, with possible hexatic order between normal solid and fluid phases.