TL;DR
This paper explores Rydberg atoms arranged in a ring lattice to study quantum thermalization and entanglement generation, providing insights into strongly interacting many-particle quantum systems.
Contribution
It introduces a model system of Rydberg atoms in a ring lattice for investigating thermalization and entanglement in quantum many-body physics.
Findings
Potential to observe thermalization without a thermal bath
Proposal for creating entangled many-body quantum states
Application in generating single photons
Abstract
Atoms in highly excited Rydberg states exhibit remarkable properties and constitute a powerful tool for studying quantum phenomena in strongly interacting many-particle systems. We investigate alkali atoms that are held in a ring lattice and excited to Rydberg states. The system constitutes an ideal model system to study thermalization of a coherently evolving quantum many-particle system in the absence of a thermal bath. Moreover, it offers exciting perspective to create entangled many-body quantum states which can serve as a resource for the generation of single photons.
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