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.
Supersolid phases in ultracold gases of mi- crowave shielded polar molecules
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
years
2026 3verdicts
UNVERDICTED 3representative 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.
Microwave shielding on the n=1→2 transition prevents collisions between ultracold polar molecules without producing bound states that would enhance three-body recombination.
citing papers explorer
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Microwave shielding of ultracold polar molecules on the transition $\boldsymbol{n=1 \rightarrow 2}$
Microwave shielding on the n=1→2 transition prevents collisions between ultracold polar molecules without producing bound states that would enhance three-body recombination.