English

Passive radiative temperature regulator: principles and absorption-emission manipulation

Optics 2021-02-26 v1 Applied Physics

Abstract

As a representative device exploiting both the solar energy and the radiative cooling of deep-sky, the radiative temperature regulator (RTR) could switch between heating and cooling modes self-adaptively at different temperatures. However, the concept of RTR is challenging to be implemented due to the intense parasitic absorption in phase-changing layers. Here, based on the theoretical framework of energy conservation, we quantitatively reveal the intrinsic relationships between solar heating and radiative cooling, especially addressing the fundamental limiting factors, including the parasitic absorption and the spectral emission selectivity, as well as the dynamic responses of the phase-changing device under various operating conditions. The investigation presents more insight into the underlying physics of RTRs and provides feasible architectures for realizing such a kind of new functional device.

Keywords

Cite

@article{arxiv.2102.12626,
  title  = {Passive radiative temperature regulator: principles and absorption-emission manipulation},
  author = {Haipeng Zhao and Yaohui Zhan and Shuliang Dou and Liang Wang and Yao Li and Xiaofeng Li},
  journal= {arXiv preprint arXiv:2102.12626},
  year   = {2021}
}

Comments

14 Pages, 6 figures, submitted to Photonics Research on 23th Nov. 2020

R2 v1 2026-06-23T23:29:32.654Z