Chinese Optics Letters, 2012, 10 (12): 122301, Published Online: Nov. 28, 2012
Enhanced slow light propagation in photonic crystal waveguides using angular properties of scatter elements 
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230.5298 Photonic crystals 250.5530 Pulse propagation and temporal solitons 160.5293 Photonic bandgap materials
Abstract
Applicability of the angular properties of scatter elements as a tool to achieve improved slow light performance with small group velocity dispersion and large bandwidth in photonic crystal waveguides is investigated. A polyatomic photonic crystal waveguide, including two scatter elements with different geometrical shapes in each primitive cell, is proposed to investigate the feasibility of our method. Numerical results show that a versatile control of the dispersion relation of slow light modes, with large normalized delay-bandwidth products ranging from 0.2085 to 0.3394, can be obtained using a unique geometrical parameter.
Daobin Wang, Jie Zhang, Yongli Zhao, Sai Chen, Lihua Yuan, Jingli Lei, Cairong Zhang, Shanglin Hou. Enhanced slow light propagation in photonic crystal waveguides using angular properties of scatter elements[J]. Chinese Optics Letters, 2012, 10(12): 122301.
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