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Main Authors: Fitzner, Erik, Lesanovsky, Igor, Sbierski, Björn
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.22743
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author Fitzner, Erik
Lesanovsky, Igor
Sbierski, Björn
author_facet Fitzner, Erik
Lesanovsky, Igor
Sbierski, Björn
contents We propose an accurate thermometry approach for Rydberg atom tweezer arrays combining data from correlation and local susceptibility measurements with a theoretical high-temperature expansion method for dynamic spin correlations. We apply our approach to a recent quantum simulation experiment [Bornet et al., arXiv 2602.14323] realizing an anti-ferromagnetic dipolar spin-1/2 XY model on the Kagome lattice. We obtain T=0.55J and S/N=0.67 ln2 for temperature and entropy respectively, showing that further experimental efforts are required to reach the putative quantum spin liquid regime.
format Preprint
id arxiv_https___arxiv_org_abs_2604_22743
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Thermometry for a Kagome Lattice Dipolar Rydberg Simulator
Fitzner, Erik
Lesanovsky, Igor
Sbierski, Björn
Quantum Gases
Strongly Correlated Electrons
We propose an accurate thermometry approach for Rydberg atom tweezer arrays combining data from correlation and local susceptibility measurements with a theoretical high-temperature expansion method for dynamic spin correlations. We apply our approach to a recent quantum simulation experiment [Bornet et al., arXiv 2602.14323] realizing an anti-ferromagnetic dipolar spin-1/2 XY model on the Kagome lattice. We obtain T=0.55J and S/N=0.67 ln2 for temperature and entropy respectively, showing that further experimental efforts are required to reach the putative quantum spin liquid regime.
title Thermometry for a Kagome Lattice Dipolar Rydberg Simulator
topic Quantum Gases
Strongly Correlated Electrons
url https://arxiv.org/abs/2604.22743