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Near-Field Radiative Heat Transfer Modulation with an Ultrahigh Dynamic Range through Mode Mismatching

Kezhang Shi, Zhaoyang Chen, Yuxin Xing, Jianxin Yang, Xinan Xu, Julian Evans, Sailing He

2022Nano Letters55 citationsDOIOpen Access PDF

Abstract

Modulating near-field radiative heat transfer (NFRHT) with a high dynamic range is challenging in nanoscale thermal science and engineering. Modulation depths [(maximum value - minimum value)/(maximum value + minimum value) × 100%] of ≈2% to ≈15.7% have been reported with matched modes, but breaking the constraint of mode matching theoretically allows for higher modulation depth. We demonstrate a modulation depth of ≈32.2% by a pair of graphene-covered SU8 heterostructures at a gap distance of ≈80 nm. Dissimilar Fermi levels tuned by bias voltages enable mismatched surface plasmon polaritons which improves the modulation. The modulation depth when switching from a matched mode to a mismatched mode is ≈4.4-fold compared to that when switching between matched modes. This work shows the importance of symmetry in polariton-mediated NFRHT and represents the largest modulation depth to date in a two-body system with fixed gap distance and temperature.

Topics & Concepts

Modulation (music)Materials scienceSurface plasmon polaritonGrapheneThermalHeterojunctionOpticsPlasmonPhysicsOptoelectronicsSurface plasmonNanotechnologyAcousticsMeteorologyThermal Radiation and Cooling TechnologiesQuantum Electrodynamics and Casimir Effectsolar cell performance optimization