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Quantum Thermodynamics
Quantum Chemistry
Finite-Temperature Quantum Matter with Rydberg or Molecule Synthetic Dimensions
arXiv
Authors: Sohail Dasgupta, Chunhan Feng, Bryce Gadway, Richard T. Scalettar, Kaden R. A. Hazzard
Year
2023
Paper ID
56289
Status
Preprint
Abstract Read
~2 min
Abstract Words
189
Citations
N/A
Abstract
Synthetic dimension platforms offer unique pathways for engineering quantum matter. We compute the phase diagram of a many-body system of ultracold atoms (or polar molecules) with a set of Rydberg states (or rotational states) as a synthetic dimension, where the particles are arranged in real space in optical microtrap arrays and interact via dipole-dipole exchange interaction. Using mean-field theory, we find three ordered phases - two are localized in the synthetic dimension, predicted as zero-temperature ground states in Refs. [Sci. Rep., 8, 1 (2018) and Phys. Rev. A 99, 013624 (2019)], and a delocalized phase. We characterize them by identifying the spontaneously broken discrete symmetries of the Hamiltonian. We also compute the phase diagram as a function of temperature and interaction strength, for both signs of the interaction. For system sizes with more than six synthetic sites and attractive interactions, we find that the thermal phase transitions can be first or second order, which leads to a tri-critical point on the phase boundary. By examining the dependence of the tri-critical point and other special points of the phase boundary on the synthetic dimension size, we shed light on the physics for thermodynamically large synthetic dimension.
Why This Paper Matters
- This paper contributes to the Quantum Thermodynamics research area in the Quantum Articles archive.
- It adds a 2023 reference point for readers tracking recent quantum research.
- Synthetic dimension platforms offer unique pathways for engineering quantum matter.
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