... to be opaque in the infrared region such that the underneath layers does not contribute to thermal emission. Only TM waves are studied for the 1D grating structures, since SPP and MP modes cannot be excited for transverse electric (TE) waves. A Fourier-transform infrared (FTIR) spectrometer was used...

... Absorption/Emission , ASME J. Heat Transfer , 131 , p. 033105 . 10.1115/1.3056599 [17] Celanovic , I. , Perreault , D. , and Kassakian , J. , 2005 , “ Resonant-Cavity Enhanced Thermal Emission ,” Phys. Rev. B , 72 , p. 075127 . 10.1103/PhysRevB.72.075127 [18] Huang , J. G...

...L. P. Wang; S. Basu; Z. M. Zhang There have been growing interests in selective control of thermal emission by using micro/nanostructures. The present study describes direct measurements of infrared thermal emission at elevated temperatures of an asymmetric Fabry–Perot resonator at variable angles...

... been proposed to enhance a material’s emissivity and its radiative coherence. Control of thermal emission is of crucial concern in the design of infrared sources, in electronic chip coolants, in high-efficiency photovoltaic cells, and in solar energy conversion. In this review paper, we present...

... of Maxwell’s equations with the fluctuation-dissipation theorem to directly calculate the emissivity. The present study aims at unifying the direct and indirect methods for calculating the far-field thermal emission from layered structures with a nonuniform temperature distribution. Formulations for both...

... to enhance a material’s emissivity and its radiative coherence, as control of thermal emission is of crucial concern in the design of infrared sources, optical filters, and sensing devices. In this research, an extraordinary coherent thermal emission from an anisotropic microstructure is experimentally...