Related papers: Quantum simulation of the phase transition of the massive Thirring model

Quantum simulation of the phase transition of the massive Thirring model

URL: http://arxiv.org/abs/2412.00803v1
Date: Sun, 01 Dec 2024 13:10:16 GMT
Title: Quantum simulation of the phase transition of the massive Thirring model
Authors: Jia-Qi Gong, Ji-Chong Yang,
Abstract summary: QMETTS is able to accurately reproduce the phase transition and thermodynamic properties of the massive Thirring model. Results show that QMETTS is able to accurately reproduce the phase transition and thermodynamic properties of the massive Thirring model.
Score: 0.19950682531209152
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Abstract: The rapid development of quantum computing technology has made it possible to study the thermodynamic properties of fermionic systems at finite temperatures through quantum simulations on a quantum computer. This provides a novel approach to the study of the chiral phase transition of fermionic systems. Among these, the quantum minimally entangled typical thermal states (QMETTS) algorithm has recently attracted considerable interest. The massive Thirring model, which exhibits a variety of phenomena at low temperatures, includes both a chiral phase transition and a topologically non-trivial ground state. It therefore raises the intriguing question of whether its phase transition can be studied using a quantum simulation approach. In this study, the chiral phase transition of the massive Thirring model and its dual topological phase transition are studied using the QMETTS algorithm. The results show that QMETTS is able to accurately reproduce the phase transition and thermodynamic properties of the massive Thirring model.

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