Litcius/Paper detail

Carbon nanotube electron blackbody and its radiation spectra

Ke Zhang, Guo Chen, Shaohua Zhou, Zi Yuan, Xu Gu, Duanliang Zhou, Yuan Wang, Xinyu Gao, Yucheng Ma, Runzhe Xu, Zai-Qiao Bai, Peng Liu, Lexian Yang, Shuyun Zhou, Shoushan Fan, Kaili Jiang

2023Proceedings of the National Academy of Sciences13 citationsDOIOpen Access PDF

Abstract

An optical blackbody is an ideal absorber for all incident optical radiation, and the theoretical study of its radiation spectra paved the way for quantum mechanics (Planck’s law). Herein, we propose the concept of an electron blackbody, which is a perfect electron absorber as well as an electron emitter with standard energy spectra at different temperatures. Vertically aligned carbon nanotube arrays are electron blackbodies with an electron absorption coefficient of 0.95 for incident energy ranging from 1 keV to 20 keV and standard electron emission spectra that fit well with the free electron gas model. Such a concept might also be generalized to blackbodies for extreme ultraviolet, X-ray, and γ -ray photons as well as neutrons, protons, and other elementary particles.

Topics & Concepts

Black-body radiationElectronPhysicsPhotonSpectral lineAtomic physicsSecondary electronsAbsorption (acoustics)Carbon nanotubeRadiationMaterials scienceOpticsNuclear physicsNanotechnologyQuantum mechanicsCarbon Nanotubes in CompositesPhotocathodes and Microchannel PlatesAtomic and Molecular Physics