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Observation of Near-Field Thermal Radiation between Coplanar Nanodevices with Subwavelength Dimensions

Xiao Luo, Hakan Salihoglu, Zexiao Wang, Zhuo Li, Hyeong-Gyun Kim, Xiu Liu, Jiayu Li, Bowen Yu, Shen Du, Sheng Shen

2024Nano Letters24 citationsDOIOpen Access PDF

Abstract

With the continuous advancement of nanotechnology, nanodevices have become crucial components in computing, sensing, and energy conversion applications. The structures of nanodevices typically possess subwavelength dimensions and separations, which pose significant challenges for understanding energy transport phenomena in nanodevices. Here, on the basis of a judiciously designed thermal photonic nanodevice, we report the first measurement of near-field energy transport between two coplanar subwavelength structures over temperature bias up to ∼190 K. Our experimental results demonstrate a 20-fold enhancement in energy transfer beyond blackbody radiation. In contrast with the well-established near-field interactions between two semi-infinite bodies, the subwavelength confinements in nanodevices lead to increased polariton scattering and reduction of supporting photonic modes and, therefore, a lower energy flow at a given separation. Our work unveils exciting opportunities for the rational design of nanodevices, particularly for coplanar near-field energy transport, with important implications for the development of efficient nanodevices for energy harvesting and thermal management.

Topics & Concepts

NanodevicePhotonicsNanotechnologyMaterials scienceField (mathematics)ScatteringOptoelectronicsPhysicsOpticsPure mathematicsMathematicsThermal Radiation and Cooling TechnologiesQuantum Electrodynamics and Casimir EffectOptical properties and cooling technologies in crystalline materials
Observation of Near-Field Thermal Radiation between Coplanar Nanodevices with Subwavelength Dimensions | Litcius