Precision Measurements of Temperature‐Dependent and Nonequilibrium Thermal Emitters

Thermal emission is the radiation of electromagnetic waves from hot objects. The promise of thermal‐emission engineering for applications in energy harvesting, radiative cooling, and thermal camouflage has recently led to renewed research interest in this topic. However, accurate and precise measurements of thermal emission in a laboratory setting can be challenging in part due to the presence of background emission from the surrounding environment and the measurement instrument itself. This problem is especially acute for thermal emitters that have unconventional temperature dependence, operate at low temperatures, or are out of equilibrium. In this paper, general procedures are described, recommended, and demonstrated for thermal‐emission measurements that can accommodate such unconventional thermal emitters. Thermal‐emission measurements can be challenging because of the presence of background emission from the surrounding environment and the instrument. This is especially the case for temperature‐dependent and nonequilibrium thermal emitters. This paper describes and demonstrates procedures for measurement and analysis that can accommodate such unconventional thermal emitters.