Microwave dressing breaks rotational symmetry in polar-molecule interactions, producing metastable droplet arrays as non-equilibrium states while suppressing the crystalline phase expected for antidipolar cases.
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2 Pith papers cite this work. Polarity classification is still indexing.
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cond-mat.quant-gas 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Programmable non-axisymmetric dipolar interactions select a family of stripe solids rather than a single commensurate order in a hard-core Bose lattice model, as shown by quantum Monte Carlo simulations.
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Equilibrium and non-equilibrium phases of microwave-dressed polar molecules beyond rotational symmetries
Microwave dressing breaks rotational symmetry in polar-molecule interactions, producing metastable droplet arrays as non-equilibrium states while suppressing the crystalline phase expected for antidipolar cases.
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Programmable dipolar interaction geometry selects stripe-family order in a molecular lattice quantum simulator
Programmable non-axisymmetric dipolar interactions select a family of stripe solids rather than a single commensurate order in a hard-core Bose lattice model, as shown by quantum Monte Carlo simulations.