Active Control of Near-Field Radiative Heat Transfer between Nanoparticles and Slab Via the Multilayered Surface Modes

22 Pages Posted: 12 Jul 2022

See all articles by Jie-Long fang

Jie-Long fang

Harbin Institute of Technology

Lei Qu

Harbin Institute of Technology

Yong Zhang

Harbin Institute of Technology

Hong-Liang Yi

Harbin Institute of Technology; Harbin Institute of Technology - School of Energy Science and Engineering

Abstract

We derive the formula for the near-field radiative heat flux between dipole particles and a multilayered slab composed of the uniaxial medium. Based on that, the multilayered structure consisting of SiC and VO 2 materials is applied to actively modulate the radiative heat transfer between nanoparticles and slab. Utilizing the modulation feature of the multilayer, surface modes from the multilayer can be strongly coupled to the particle resonance, greatly enhancing the heat flux between the particle and slab. The phase change feature of VO 2 allows the active control of multilayered surface modes by changing the slab’s temperature, greatly tuning the heat flux. We address the role of multilayer parameters on the modulation effect. We also demonstrate that the multilayered structure can also actively tune the heat flux between the nanoparticles array and slab.

Keywords: near-field radiative heat transfer, surface modes, Nanoparticles, multilayered slab, phase transition material, Green's function

Suggested Citation

fang, Jie-Long and Qu, Lei and Zhang, Yong and Yi, Hong-Liang, Active Control of Near-Field Radiative Heat Transfer between Nanoparticles and Slab Via the Multilayered Surface Modes. Available at SSRN: https://ssrn.com/abstract=4160302 or http://dx.doi.org/10.2139/ssrn.4160302

Jie-Long Fang

Harbin Institute of Technology ( email )

92 West Dazhi Street
Nan Gang District
Harbin, 150001
China

Lei Qu

Harbin Institute of Technology ( email )

92 West Dazhi Street
Nan Gang District
Harbin, 150001
China

Yong Zhang

Harbin Institute of Technology ( email )

92 West Dazhi Street
Nan Gang District
Harbin, 150001
China

Hong-Liang Yi (Contact Author)

Harbin Institute of Technology ( email )

92 West Dazhi Street
Nan Gang District
Harbin, 150001
China

Harbin Institute of Technology - School of Energy Science and Engineering ( email )

Do you have a job opening that you would like to promote on SSRN?

Paper statistics

Downloads
35
Abstract Views
181
PlumX Metrics