Memory and thermal amplification in spin--cavity squared commutators
摘要
Squared commutators in the Holstein--Primakoff limit of a spin--cavity system provide a compact way to separate propagation from covariance growth in a finite-temperature reservoir with memory. In the finite-temperature NMQSD construction, the linear quadrature commutator is fixed by the retarded spin--cavity propagator, whereas a quadratic commutator carries the same retarded factor together with a covariance factor. For a zero-mean Gaussian state, ; the symmetrized expression gives the spin-side and mixed channels. Since enters the covariance sector but not the homogeneous retarded kernel, raising from 0 to 1 leaves the linear transfer unchanged while increasing the quadratic signal. Varying the bath-memory rate and the counter-rotating coupling within the stable HP region then shows how stored cavity history changes both the transfer weight and its distribution in time. The calculation separates memory-dependent propagation from thermal covariance growth in collective spin--cavity dynamics.
引用
@article{arxiv.2606.27648,
title = {Memory and thermal amplification in spin--cavity squared commutators},
author = {Yong-Hong Ma and Hui-Hui Xu and Jian-Zhuang Wu and Quan-Zhen Ding and Wu-Ming Liu and Xin-Yu Zhao and E Wu},
journal= {arXiv preprint arXiv:2606.27648},
year = {2026}
}