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Radiative thermal rectification in many-body systems

Ivan Latella, Philippe Ben‐Abdallah, M. Nikbakht

2021Physical review. B./Physical review. B35 citationsDOIOpen Access PDF

Abstract

Radiative thermal diodes based on two-element structures rectify heat flows thanks to a temperature dependence of material optical properties. The heat transport asymmetry through these systems, however, remains weak without a significant change in material properties with the temperature. Here we explore the heat transport in three-element radiative systems and demonstrate that a strong asymmetry in the thermal conductance can appear because of many-body interactions, without any dependence of optical properties on the temperature. The analysis of transport in three-body systems made with polar dielectrics and metallic layers reveals that rectification coefficients exceeding 50% can be achieved in the near-field regime with temperature differences of about 200 K. This work paves the way for compact devices to rectify near-field radiative heat fluxes over a broad temperature range and could have important applications in the domain of nanoscale thermal management.

Topics & Concepts

Radiative transferRectificationMaterials scienceAsymmetryWork (physics)ThermalThermal radiationDielectricRadiative coolingThermal conductivityField (mathematics)Radiant heatOptoelectronicsMechanicsThermodynamicsPhysicsOpticsComposite materialQuantum mechanicsMathematicsPower (physics)Pure mathematicsThermal Radiation and Cooling TechnologiesAdvanced Thermodynamics and Statistical MechanicsOptical properties and cooling technologies in crystalline materials
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