A tunable nonlocal photon interaction via drifted 2DEG creates roton instability and bistable supersolid transition in a microcavity, supporting write-hold-erase all-optical switching with ~120 dB contrast.
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Numerical simulations of merging dipolar supersolid fragments show damped crystal oscillations reflecting superfluid connectivity and out-of-phase drifts indicating second sound excitation via phase-imprinted dark solitons.
Numerical simulations reveal that tilting dipolar atoms in rotating BECs drives a square-to-triangular vortex lattice transition, vortex elimination beyond the magic angle, and LHY-enabled vortex formation or fragmentation depending on orientation and rotation strength.
citing papers explorer
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Ultrafast All-Optical Switching via a Supersolid Phase Transition of Light
A tunable nonlocal photon interaction via drifted 2DEG creates roton instability and bistable supersolid transition in a microcavity, supporting write-hold-erase all-optical switching with ~120 dB contrast.
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Signatures of rigidity and second sound in dipolar supersolids
Numerical simulations of merging dipolar supersolid fragments show damped crystal oscillations reflecting superfluid connectivity and out-of-phase drifts indicating second sound excitation via phase-imprinted dark solitons.
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Structural transition and fragmentation of vortex lattices in rotating tilted dipolar Bose-Einstein condensate
Numerical simulations reveal that tilting dipolar atoms in rotating BECs drives a square-to-triangular vortex lattice transition, vortex elimination beyond the magic angle, and LHY-enabled vortex formation or fragmentation depending on orientation and rotation strength.