First-order phase transition of the Schwinger model with a quantum computer

IF 6.6 1区物理与天体物理 Q1 PHYSICS, APPLIED

npj Quantum Information Pub Date : 2025-01-18 DOI:10.1038/s41534-024-00950-6

Takis Angelides, Pranay Naredi, Arianna Crippa, Karl Jansen, Stefan Kühn, Ivano Tavernelli, Derek S. Wang

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Abstract

We explore the first-order phase transition in the lattice Schwinger model in the presence of a topological θ-term by means of the variational quantum eigensolver (VQE). Using two different fermion discretizations, Wilson and staggered fermions, we develop parametric ansatz circuits suitable for both discretizations, and compare their performance by simulating classically an ideal VQE optimization in the absence of noise. The states obtained by the classical simulation are then prepared on the IBM’s superconducting quantum hardware. Applying state-of-the art error-mitigation methods, we show that the electric field density and particle number, observables which reveal the phase structure of the model, can be reliably obtained from the quantum hardware. To investigate the minimum system sizes required for a continuum extrapolation, we study the continuum limit using matrix product states, and compare our results to continuum mass perturbation theory. We demonstrate that taking the additive mass renormalization into account is vital for enhancing the precision that can be obtained with smaller system sizes. Furthermore, for the observables we investigate we observe excellent agreement in the continuum limit of both fermion discretizations.

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Schwinger模型的一阶相变与量子计算机

利用变分量子本征求解器（VQE）研究了拓扑θ-项存在下晶格Schwinger模型中的一阶相变。使用两种不同的费米子离散化，威尔逊费米子和交错费米子，我们开发了适用于这两种离散化的参数化分析电路，并通过模拟经典的无噪声理想VQE优化来比较它们的性能。然后在IBM的超导量子硬件上制备由经典模拟获得的状态。应用最先进的误差缓解方法，我们证明了电场密度和粒子数，这些揭示模型相结构的观测值，可以从量子硬件中可靠地获得。为了研究连续统外推所需的最小系统尺寸，我们使用矩阵积态研究了连续统极限，并将我们的结果与连续统质量摄动理论进行了比较。我们证明，考虑附加质量重整化对于提高精度至关重要，可以获得更小的系统尺寸。此外，对于我们研究的可观测值，我们在两个费米子离散化的连续统极限上观察到非常好的一致性。

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来源期刊

npj Quantum Information Computer Science-Computer Science (miscellaneous)

CiteScore

13.70

自引率

3.90%

发文量

130

审稿时长

29 weeks

期刊介绍： The scope of npj Quantum Information spans across all relevant disciplines, fields, approaches and levels and so considers outstanding work ranging from fundamental research to applications and technologies.