In passive sky-facing radiative cooling, wavelength-selective thermal emitters in the atmospheric transparency window of 8-13 μm can reach lower temperatures compared to broadband emitters, but broadband emitters always have higher cooling power when the emitter is warmer than the ambient. Here, we propose a temperature-tunable thermal emitter that switches between a wavelength-selective state -- with high emissivity only in the atmospheric transparency window of 8-13 μm -- and a broadband-emissive state with high emissivity in the 3-25 μm range, thus maintaining high cooling potential across all temperatures. We also propose a realization of such a temperature-tunable emitter using the phase transition of vanadium dioxide (VO2), which can be tuned to the ambient temperature using a combination of doping and defect engineering.
@article{arxiv.2506.11259,
title = {Passive radiative cooling using temperature-dependent emissivity can sometimes outperform static emitters},
author = {Yeonghoon Jin and Jin-Woo Cho and Mikhail A. Kats},
journal= {arXiv preprint arXiv:2506.11259},
year = {2025}
}