Trapped-ion quantum processor experimentally realizes 2D non-equilibrium steady states of hard-core bosons and fermions with source-drain driving, showing measurable effects from statistics, interactions, and magnetic fields.
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Driven-dissipative bosonic lattices enable reconstruction of a coarse-grained energy-resolved Středa marker that reveals quantum-geometric features of topological bands even under strong disorder.
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Quantum trajectory simulation of two-dimensional non-equilibrium steady states with a trapped ion quantum processor
Trapped-ion quantum processor experimentally realizes 2D non-equilibrium steady states of hard-core bosons and fermions with source-drain driving, showing measurable effects from statistics, interactions, and magnetic fields.
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Energy-Resolved Quantum Geometry from St\v{r}eda Response: Driven-Dissipative Bosonic Lattices and Disordered Systems
Driven-dissipative bosonic lattices enable reconstruction of a coarse-grained energy-resolved Středa marker that reveals quantum-geometric features of topological bands even under strong disorder.