Add to ORKGWe propose a theoretical concept of a far-field radiative thermal rectification device that uses a phase change material to achieve a high degree of asymmetry in radiative heat transfer. The proposed device has a multilayer structure on one side and a blackbody on other side. The multilayer structure consists of transparent thin film of KBr sandwiched between a thin film of VO2 and a reflecting layer of gold. When VO2 is in its insulating phase, the structure is highly reflective due to the two transparent layers on highly reflective gold. When VO2 is in the metallic phase, Fabry-Perot type of resonance occurs and the tri-layer structure acts like a wide-angle antireflection coating achieved by destructive interference of partially reflecte...
Summary: Solid-state thermal control devices that present an asymmetric heat flow depending on therm...
Dynamic control of radiative heat transfer is of fundamental interest as well as for applications in...
Micro/nano scale radiative transport phenomena present new opportunities to design spectrally select...
We present a thermal rectification device concept based on far-field radiative exchange between two ...
We theoretically analyze two near-field thermal rectification devices: a radiative thermal diode and...
International audienceThermal rectification phenomenon is a manifestation of an asymmetry in the hea...
International audienceThermal rectification of far-field heat currents is experimentally demonstrate...
Radiative thermal diodes based on two-element structures rectify heat flows thanks to a temperature ...
International audienceIn this work we demonstrate thermal rectification at the nanoscale between dop...
Thermal radiation from a black body increases with the fourth power of absolute temperature (T4 ), a...
The thermal rectification of conductive and radiative thermal diodes based on phase-change materials...
thesisA photonic thermal diode is a two-terminal device in which the magnitude of the heat transfer ...
International audienceA radiative thermostat system senses its own temperature and automatically mod...
2018-02-02This dissertation work studies the use of nanostructures and microstructures to control th...
Control of heat flow in both near and far field through thermal radiation is of fundamental interest...
Summary: Solid-state thermal control devices that present an asymmetric heat flow depending on therm...
Dynamic control of radiative heat transfer is of fundamental interest as well as for applications in...
Micro/nano scale radiative transport phenomena present new opportunities to design spectrally select...
We present a thermal rectification device concept based on far-field radiative exchange between two ...
We theoretically analyze two near-field thermal rectification devices: a radiative thermal diode and...
International audienceThermal rectification phenomenon is a manifestation of an asymmetry in the hea...
International audienceThermal rectification of far-field heat currents is experimentally demonstrate...
Radiative thermal diodes based on two-element structures rectify heat flows thanks to a temperature ...
International audienceIn this work we demonstrate thermal rectification at the nanoscale between dop...
Thermal radiation from a black body increases with the fourth power of absolute temperature (T4 ), a...
The thermal rectification of conductive and radiative thermal diodes based on phase-change materials...
thesisA photonic thermal diode is a two-terminal device in which the magnitude of the heat transfer ...
International audienceA radiative thermostat system senses its own temperature and automatically mod...
2018-02-02This dissertation work studies the use of nanostructures and microstructures to control th...
Control of heat flow in both near and far field through thermal radiation is of fundamental interest...
Summary: Solid-state thermal control devices that present an asymmetric heat flow depending on therm...
Dynamic control of radiative heat transfer is of fundamental interest as well as for applications in...
Micro/nano scale radiative transport phenomena present new opportunities to design spectrally select...