Ultrahigh thermal rectification based on near-field thermal radiation between dissimilar nanoparticles
- 所属单位:
能源与动力学院
- 发表刊物:
J. Quant. Spectrosc. Radiat. Transf.
- 摘要:
The capability of manipulating heat flux at the nanoscale has many promising applications in modern electronics and information processing industries. In this paper, a design to achieve ultrahigh thermal rectification is proposed based on near-field thermal radiation between nanoparticles made of intrinsic silicon and a dissimilar material. A record-high rectification ratio of more than 104 is theoretically demonstrated, and the underlying mechanism lies in the prominent increase of imaginary part of dielectric function of intrinsic silicon induced by thermally excited electrons at high temperatures. Effects of gap distances, materials and configurations of nanoparticles on the rectification ratio are also investigated. This work may pave the way for the design of efficient thermal diodes, thermal transistors, and other thermotronics devices. © 2019
- ISSN号:
0022-4073
- 是否译文:
否
- 发表时间:
2019-09-01
- 合写作者:
Wen, Shizheng,Cheng, Sheng,Wang, Zhoubing,Zhang, Shenghao,Dang, Chunzhuo
- 第一作者:
刘向雷
- 通讯作者:
刘向雷
