Exchange symmetry enforces phase synchronization that yields maximal coherent control of scattering cross sections for identical fermions and high-visibility control for bosons, plus full parity control at any energy.
Bose-Einstein condensate of ultracold sodium-rubidium molecules with tunable dipolar inter- actions
8 Pith papers cite this work. Polarity classification is still indexing.
representative citing papers
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.
Self-bound quantum droplets exhibit nonmonotonous dependence on non-axisymmetric DDI strength, tighter binding with more particles, collapse at low s-wave scattering length, and direction-dependent collision outcomes ranging from rebound to fragmentation.
A quasi-2D quantum degenerate Bose mixture of 23Na and 87Rb atoms was prepared and shown to exhibit quantum immiscibility in equilibrium density profiles consistent with mean-field theory.
Simulations of confined polar molecules reveal a bilayer crystal phase stabilized by increasing confinement and evidence of layered superfluid states with inter-layer coherence.
In-situ imaging of quasi-2D 166Er Bose gas reveals magnetostriction crossover from anisotropic superfluid to isotropic normal phase, supported by a quasi-2D Hartree-Fock mean-field thermometry framework that fits temperature and chemical potential from a single density profile.
Light-induced losses dominate DyK Feshbach molecule decay in most near-IR traps, but near 2000 nm collisional losses appear and are suppressed by an order of magnitude for the most weakly bound dimers due to Pauli exclusion.
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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Identical-Particle Symmetry-Enabled Complete Coherent Control of Ultracold Atomic and Molecular Collisions
Exchange symmetry enforces phase synchronization that yields maximal coherent control of scattering cross sections for identical fermions and high-visibility control for bosons, plus full parity control at any energy.
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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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Formation and dynamics of self-bound droplets in dipolar molecular condensate
Self-bound quantum droplets exhibit nonmonotonous dependence on non-axisymmetric DDI strength, tighter binding with more particles, collapse at low s-wave scattering length, and direction-dependent collision outcomes ranging from rebound to fragmentation.
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Preparation of quasi-two-dimensional Bose mixture of ultracold $^{23}$Na and $^{87}$Rb atoms
A quasi-2D quantum degenerate Bose mixture of 23Na and 87Rb atoms was prepared and shown to exhibit quantum immiscibility in equilibrium density profiles consistent with mean-field theory.
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Bilayer crystals in a polar-molecules system
Simulations of confined polar molecules reveal a bilayer crystal phase stabilized by increasing confinement and evidence of layered superfluid states with inter-layer coherence.
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In-situ Observation of Magnetostriction Crossover in a Strongly Dipolar Two-Dimensional Bose Gas
In-situ imaging of quasi-2D 166Er Bose gas reveals magnetostriction crossover from anisotropic superfluid to isotropic normal phase, supported by a quasi-2D Hartree-Fock mean-field thermometry framework that fits temperature and chemical potential from a single density profile.
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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.