A scalable numerical framework simulates laser cooling of large 3D ion crystals in Penning traps, identifying axial mode additions and prolate geometries that achieve sub-1 mK perpendicular temperatures with simplified beam setups.
Observing frustrated quantum magnetism in two-dimensional ion crystals,
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The paper reviews advances in quantum simulation of out-of-equilibrium dynamics in gauge theories, covering particle production, string breaking, thermalization, and related phenomena.
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Optimizing Doppler laser cooling protocols for quantum sensing with 3D ion crystals in a Penning trap
A scalable numerical framework simulates laser cooling of large 3D ion crystals in Penning traps, identifying axial mode additions and prolate geometries that achieve sub-1 mK perpendicular temperatures with simplified beam setups.
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Quantum simulation of out-of-equilibrium dynamics in gauge theories
The paper reviews advances in quantum simulation of out-of-equilibrium dynamics in gauge theories, covering particle production, string breaking, thermalization, and related phenomena.