中文

Photon-Atom Granularity Noise Thermometry

原子物理 2026-05-19 v1 量子物理

摘要

We propose granularity noise thermometry (GNT), a fluctuation-based optical thermometry scheme that exploits the intrinsic fluctuations of susceptibility arising from atomic discreteness. The power spectral density of transmitted light exhibits an excess noise above the shot-noise limit that scales linearly with the photon-to-atom ratio R\mathcal{R}. Consequently, varying the incident power (hence R\mathcal{R}) yields the slope K\mathcal{K} of this linear scaling, which directly encodes the temperature. Closed-form expressions for the polarizability moments are derived via the plasma dispersion function, which yield distinct temperature scalings: KPv(T)/T2\mathcal{K}\propto P_{\mathrm{v}}(T)/T^2 for thermal vapors and KT2\mathcal{K}\propto T^{2} for cold atoms. While practical implementation requires careful control of technical noise and system parameters, the present framework provides a noise-based pathway for optical thermometry using atomic ensembles.

关键词

引用

@article{arxiv.2605.17797,
  title  = {Photon-Atom Granularity Noise Thermometry},
  author = {Chen-Rong Liu and Yixuan Wang and Xiaowei Wang and Chuang Li and Mingti Zhou and Runxia Tao and Hongwei Chen and Ying Dong},
  journal= {arXiv preprint arXiv:2605.17797},
  year   = {2026}
}

备注

12 pages, 1 table, 4 figures