Modulation of the refractive properties of 1D and 2D photonic crystal polycrystalline silicon-based membranes in the MIR frequency range

Abstract: We have investigated, theoretically using finite difference time domain method, and experimentally using Fourier transform infrared spectroscopy, the effect of grating’s parameters on the reflective properties of ridges and holes’ photonic crystal membrane made of polycrystalline silicon in the mid-infrared (MIR) range (5–15 μm). We found that the interaction of an incident wave with the ridges and the drilled membrane modifies the reflective spectrum in a similar way. For the two geometries we first found Fab… Show more

“…Because of their abilities to control and manage electromagnetic waves at the Mid-Infrared (Mid-IR) wavelength scale, photonic nanostructures demonstrate their ability to manage thermal radiations properties in a way drastically different from conventional thermal emitters. Indeed, photonic crystal performances authorize to overtake the constraints of usual thermal emitters 3 toward coherence, narrowband emission, polarization, directionality… The modification of Planck blackbody radiation by photonic band gap materials has been discussed, based on either simple photonic multilayered structures 4 or more complex 1D 5,6 , 2D 7,8 and 3D 9 ones, thus making the demonstration of the enhancement, suppression and selectivity of thermal emission based on the photonic crystals properties. The fundamental advances in controlling thermal radiation led to different applications in the energy domain, as thermophotovoltaic devices that convert sunlight into thermal emission using hot absorber-emitter 10 .…”

Polymer photonic crystal membrane for thermo-regulating textile

“…Because of their abilities to control and manage electromagnetic waves at the Mid-Infrared (Mid-IR) wavelength scale, photonic nanostructures demonstrate their ability to manage thermal radiations properties in a way drastically different from conventional thermal emitters. Indeed, photonic crystal performances authorize to overtake the constraints of usual thermal emitters 3 toward coherence, narrowband emission, polarization, directionality… The modification of Planck blackbody radiation by photonic band gap materials has been discussed, based on either simple photonic multilayered structures 4 or more complex 1D 5,6 , 2D 7,8 and 3D 9 ones, thus making the demonstration of the enhancement, suppression and selectivity of thermal emission based on the photonic crystals properties. The fundamental advances in controlling thermal radiation led to different applications in the energy domain, as thermophotovoltaic devices that convert sunlight into thermal emission using hot absorber-emitter 10 .…”

Polymer photonic crystal membrane for thermo-regulating textile

Manipulation of low-refractive-index particles using customized dark traps