Super-Planckian thermal radiation enabled by coupled quasi-elliptic 2D black phosphorus plasmons
- Affiliation of Author(s):能源与动力学院
- Journal:APPLIED THERMAL ENGINEERING
- Key Words:Near-field thermal radiation Black phosphorus Quasi-elliptic surface plasmon polaritons Optical conductivity
- Abstract:New-joined 2D layered material - black phosphorus (BP), due to strong in-plane structural anisotropy, has exhibited exotic electrical, optical, and thermal properties while its thermal radiative properties are still largely unexplored. Here, we investigate near-field thermal radiation of mono/multilayer BP, and find that monolayer BP can support three-order-of-magnitude enhanced heat exchange over blackbodies, even exceeding optimized graphene sheets by around 18.5%. We derive the dispersion relation of coupled anisotropic BP surface plasmon polaritons (SPPs), which is find to have a good agreement with the energy transmission contour of evanescent waves. The prominent thermal radiation rate thus can be attributed to the excitation of quasi-elliptic BP SPPs enabled by its unique structural anisotropy and doping. With increasing number of layers, near-field radiative heat flux decreases monotonously. The underlying mechanism lies in the increased imaginary part of optical conductivity but weak coupling with high-wavevector photons. This work helps elucidate the near-field thermal radiation mechanism of mono/multilayer BP, and paves the way for the application of emerging BP in non-contact thermal management and energy conversion.
- ISSN No.:1359-4311
- Translation or Not:no
- Date of Publication:2018/11/05
- Co-author:Shen, Jiadong,Guo, Shu,Liu, Baoan,Wu, Weitao,Huan He
- First Author:Liu Xianglei
- Correspondence Author:Liu Xianglei
