Probing spin hydrodynamics on a superconducting quantum simulator
Abstract
Characterizing the nature of hydrodynamical transport properties in quantum dynamics provides valuable insights into the fundamental understanding of exotic non-equilibrium phases of matter. Experimentally simulating infinite-temperature transport on large-scale complex quantum systems is of considerable interest. Here, using a controllable and coherent superconducting quantum simulator, we experimentally realize the analog quantum circuit, which can efficiently prepare the Haar-random states, and probe spin transport at infinite temperature. We observe diffusive spin transport during the unitary evolution of the ladder-type quantum simulator with ergodic dynamics. Moreover, we explore the transport properties of the systems subjected to strong disorder or a tilted potential, revealing signatures of anomalous subdiffusion in accompany with the breakdown of thermalization. Our work demonstrates a scalable method of probing infinite-temperature spin transport on analog quantum simulators, which paves the way to study other intriguing out-of-equilibrium phenomena from the perspective of transport.
Cite
@article{arxiv.2310.06565,
title = {Probing spin hydrodynamics on a superconducting quantum simulator},
author = {Yun-Hao Shi and Zheng-Hang Sun and Yong-Yi Wang and Zheng-An Wang and Yu-Ran Zhang and Wei-Guo Ma and Hao-Tian Liu and Kui Zhao and Jia-Cheng Song and Gui-Han Liang and Zheng-Yang Mei and Jia-Chi Zhang and Hao Li and Chi-Tong Chen and Xiaohui Song and Jieci Wang and Guangming Xue and Haifeng Yu and Kaixuan Huang and Zhongcheng Xiang and Kai Xu and Dongning Zheng and Heng Fan},
journal= {arXiv preprint arXiv:2310.06565},
year = {2025}
}
Comments
Main text: 13 pages, 5 figures; Supplementary: 17 pages, 16 figures, 1 table