Demonstration of single-molecule resolution imaging, multi-state detection, and spatial addressing for ultracold RbCs molecules via lattice pinning and atomic fluorescence.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
representative citing papers
Determinant quantum Monte Carlo simulations of the attractive SU(3) Fermi-Hubbard model reveal a trion liquid phase and a finite-temperature charge density wave order distinct from the SU(2) case, with the Fermi liquid to trion liquid crossover suggesting a zero-temperature quantum phase transition.
Proposal for a tunable, DDI-resilient controlled-phase gate in polar molecules using global microwave pulses and motional-mode separation, with predicted fidelity over 0.9999.
citing papers explorer
-
Multi-state detection and spatial addressing in a microscope for ultracold molecules
Demonstration of single-molecule resolution imaging, multi-state detection, and spatial addressing for ultracold RbCs molecules via lattice pinning and atomic fluorescence.
-
Trion formation and ordering in the attractive SU(3) Fermi-Hubbard model
Determinant quantum Monte Carlo simulations of the attractive SU(3) Fermi-Hubbard model reveal a trion liquid phase and a finite-temperature charge density wave order distinct from the SU(2) case, with the Fermi liquid to trion liquid crossover suggesting a zero-temperature quantum phase transition.
-
High-fidelity molecular quantum logic gates resilient to interaction fluctuation
Proposal for a tunable, DDI-resilient controlled-phase gate in polar molecules using global microwave pulses and motional-mode separation, with predicted fidelity over 0.9999.