Postselection-free ballistic-diffusive transition in monitored spin chains
摘要
We study spin and entanglement dynamics in spin-1/2 XXZ chains under periodic monitoring and show that this system exhibits two measurement-induced phase transitions: a steady-state entanglement phase transition similar to those in monitored quantum circuits and a ballistic-to-diffusive transition in transient dynamics. Specifically, we discover that at low monitoring rate, an initial configuration containing a domain wall spreads ballistically while, at large monitoring rates, the domain melting is diffusive. Extensive numerical simulations, supported by theoretical arguments, indicate that the ballistic-diffusive transition is intimately interlinked with the entanglement phase transition. In contrast to the entanglement phase transitions, which require exponentially complex postselection, the ballistic-diffusive transition can be observed without postselection and constitutes an experimentally accessible manifestation of the many-body Zeno effect.
引用
@article{arxiv.2605.27350,
title = {Postselection-free ballistic-diffusive transition in monitored spin chains},
author = {K. G. S. H. Gunawardana and Ali G. Moghaddam and Teemu Ojanen},
journal= {arXiv preprint arXiv:2605.27350},
year = {2026}
}
备注
12 pages, 5 figures