10 dB emission suppression in a structured low index medium

Significant suppression of radiation in 3D structured media with small refractive index 1.4-1.6, such as of glass or polymers, is a desirable feature yet to be obtained. For periodical structures this is realised at frequencies of the complete photonic band gap (CPBG), which up to now was demonstrated to open for materials with refractive index of at least 1.9. We present here a quasiperiodic 3D structure consisting of multiple overlapping gratings with a homogeneous distribution of Bragg peaks on a sphere in reciprocal space, which allows efficient suppression of emission. Recently we have presented the theoretical model, considering interaction with the neighbouring gratings only, that estimates a finite CPBG for arbitrarily small refractive indices and thus complete emission suppression in infinite structures. However, numerical simulations demonstrate a finite leakage of power from emitter not predicted by the model. Still the simulations show -10 dB suppression in 3D structures with optimised number of gratings. Astonishingly, as we show here, this limit is almost independent of the refractive index contrast. Also, the structures with a defined number of gratings show maximal suppression at certain refractive indices, losing the suppression even at higher refractive indices. The -10 dB suppression is demonstrated for refractive index contrast as low as 1.30

A Broadband 90° Polarization Rotator Metasurface

In this communication, a broadband reflective 90° polarization rotator metasurface is presented. The metasurface unit cell is composed of double-slit circular split ring resonator with a Swiss-cross in the middle. A horizontally-polarized normally incident wave is rotated by this metasurface into vertically-polarized wave and vice versa within 3dB fractional bandwidth of 66.6% from 5.7-11.4 GHz. The polarization conversion ratio (PCR) of the proposed polarization rotator is above 75% within the operating band. A broadband polarization rotation is realized because of multiple plasmon resonances at different frequencies

Breaking the limit of emission suppression in low contrast 3D media

Light emission can be significantly suppressed in 3D photonic crystals at the frequency of a photonic band gap but a refractive index contrast above 1.8 is needed. We present 3D quasiperiodic structures that can significantly reduce the density of states even at lower index contrasts. The suppression of 10 dB is demonstrated in simulations with refractive index contrast of 1.4. A refractive index contrast of 1.6 is investigated experimentally in microwave regime