Unexpected CDW phases and reentrant CDW-vortex-superfluid-CDW transitions appear in three-leg Bose-Hubbard ladders under artificial gauge flux despite only on-site interactions.
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Entanglement structure provides a natural distributed representation for quantum wavefunctions that reduces Hamiltonian applications to local contractions and enables near-linear scaling in simulations.
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Emergence of the unexpected charge-density-wave phase driven by artificial gauge field in three-leg Bose-Hubbard ladder
Unexpected CDW phases and reentrant CDW-vortex-superfluid-CDW transitions appear in three-leg Bose-Hubbard ladders under artificial gauge flux despite only on-site interactions.
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Entanglement-informed distributed wavefunction approach to scalable quantum many-body systems
Entanglement structure provides a natural distributed representation for quantum wavefunctions that reduces Hamiltonian applications to local contractions and enables near-linear scaling in simulations.