Optimal width of quasi-crystalline slabs of dielectric cylinders to light transmission contrast

Autor: Andueza, Angel, Wang, Kang, Perez-Conde, Jesus, Sevilla, Joaquin
Rok vydání: 2016
Předmět:
Druh dokumentu: Working Paper
DOI: 10.1063/1.4961409
Popis: Light confinement induced by resonant states in aperiodic photonic structures are interesting for many applications. A particular case of these resonances can be found in 2D quasi-crystalline arrangements of dielectric cylinders. These systems present a rather isotropic band gap as well as isolated in-gap photonic states (as a result of spatially localized resonances). These states are built by high symmetry polygonal clusters that can be regarded as photonic molecules. In this paper we study the transmission properties of a slab of glass cylinders arranged in approximants of decagonal quasi-crystalline structure. In particular, we investigate the influence of the slab width in the transmission contrast between the states and the gap. The study is both experimental and numerical in the microwave regime. We find that the best transmission contrast is found for a width of around 3 times the radiation wavelength. The transmission at the band gap region is mediated by the resonances of the photonic molecules. If the samples are thin enough they become transparent except around a resonance of the photonic molecule which reflects the incoming light. In this case the behavior is reminiscent of an absorbing molecule.
Comment: 8 pages, 4 figures
Databáze: arXiv