Preprint
Exploring near critical lattice gauge simulators with Rydberg atoms facilities
ArXiv.org
Cornell University
07/18/2025
DOI: 10.48550/arxiv.2507.14128
Abstract
We motivate the use of a ladder of Rydberg atoms as an analog simulator for a lattice gauge theory version of scalar electrodynamics also called the compact Abelian Higgs model. We demonstrate that by using a few thousand shots from a single copy of the ladder simulator it is possible to estimate the bipartite quantum von Neumann entanglement entropy $S^{vN}_A$. The estimation relies on an optimized filtration of the mutual information associated with the bitstrings obtained from public facilities of configurable Rydberg arrays named Aquila. We discuss the limitations associated with finite sampling, sorting fidelity, adiabatic preparation, ramp-down of the Rabi frequency before measurement, and readout errors. We use cumulative probability distribution to compare Aquila results with high accuracy density matrix renormalization group (DMRG) or exact results. The state preparation appears to be the main source of error. We discuss the large volume behavior of the cumulative probability distribution and show examples where for a finite number of shots, there appears to be some large enough size for which any given state is seen at most once with high probability. We show that the results presented can be extended to multipartite entanglement. We briefly discuss the cost of the calculations for large square arrays in the context of obtaining quantum advantage in the near future.
Details
- Title: Subtitle
- Exploring near critical lattice gauge simulators with Rydberg atoms facilities
- Creators
- Avi KaufmanJames CoronaZane OzzelloBlake SensemanMuhammad AsaduzzamanYannick Meurice
- Resource Type
- Preprint
- Publication Details
- ArXiv.org
- DOI
- 10.48550/arxiv.2507.14128
- ISSN
- 2331-8422
- Publisher
- Cornell University; Ithaca, New York
- Language
- English
- Date posted
- 07/18/2025
- Academic Unit
- Physics and Astronomy
- Record Identifier
- 9984865440902771
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