中文

Observing conformal Floquet dynamics on a digital quantum processor

量子物理 2026-05-28 v1

摘要

Quantum simulations are traditionally confined to exploring dynamics starting from unentangled or low-entanglement states due to severe bottlenecks in protocol design, hardware performance, and classical verification. Here, we report the first experimental observation of non-equilibrium dynamics initiated directly from a many-body critical state. Using a fully-connected trapped-ion processor, we prepare the critical ground state of a transverse-field Ising model via a hardware-tailored, logarithmic-depth quantum circuit based on multi-scale entanglement renormalization. Following this initialization, we apply a deep Floquet drive that maintains emergent conformal symmetry, enabling us to benchmark the lattice dynamics against analytical results from continuum theory. In the resulting conformal heating phase, we extract a central charge consistent with the Ising universality class (c=1/2c=1/2) from the universal decay of the Loschmidt echo and observe spatial energy localization predicted by field theory. Conversely, the non-heating phase exhibits global finite-time revivals. This work establishes a scalable and versatile framework for exploring critical quantum dynamics.

关键词

引用

@article{arxiv.2605.27530,
  title  = {Observing conformal Floquet dynamics on a digital quantum processor},
  author = {Liang-Hong Mo and Bastien Lapierre and Qiang Miao},
  journal= {arXiv preprint arXiv:2605.27530},
  year   = {2026}
}

备注

11 pages, 6 figures