Title :
Tunable Multichannel Filter in a Photonic Crystal Containing Semiconductor Photonic Quantum Well
Author :
Hung, Hui-Chuan ; Wu, Chien-Jang ; Yang, Tzong-Jer ; Chang, Shoou-Jinn
Author_Institution :
Dept. of Electr. Eng., Nat. Cheng Kung Univ., Tainan, Taiwan
Abstract :
A tunable multichannel filter in the finite photonic crystal (PC) containing photonic quantum well (PQW) as a defect is proposed. The symmetric structure (AB)P(CD)Q( BA)P and the asymmetric structure (AB)P(CD)Q(AB)P are considered in this work. Here, the host PC of (AB)P is made of Si for layer A and of SiO2 for layer B. In the PQW, (CD)Q, C also is Si, but D is an extrinsic semiconductor, n-type silicon (n-Si). With the use of n-Si, it is found that both structures can function as a tunable multichannel filter in the infrared region. The number of channels is equal to Q + 1 in the symmetric structure, whereas it is Q for the asymmetric one. The positions of multiple resonant peaks can be tuned by the variation in the impurity concentration of n -Si. The proposed filter could be used to design the wavelength division multiplexer filter that is of technical use in optical communications.
Keywords :
crystal symmetry; multiplexing equipment; optical communication equipment; optical films; optical filters; photonic crystals; quantum well devices; silicon; silicon compounds; wavelength division multiplexing; Si; SiO2; asymmetric structure; finite photonic crystal; optical communication; semiconductor photonic quantum well; tunable multichannel filter; wavelength division multiplexer filter; Impurities; Optical filters; Permittivity; Photonics; Resonator filters; Silicon; Superconducting filters; Photonic quantum well (PQW); extrinsic semiconductor; multichannel filter;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2012.2186958
