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Z. WU1,* , B. TANG1, Q. ZHANG1, Q. LUO1, Y. QIU1, Z. LIU1, F. WANG1
Affiliation
- School of Sciences, Southwest Petroleum University, 610500, Chengdu, China
Abstract
In this paper, a fast optical switch working at 1550 nm that has a very short response time on the order of picoseconds is proposed. The optical switch has a very compact size of 10.14×10.14 μm2 and a concise structure consists of 16×16 In1-xGaxAsyP1-y-InP rods in air. The structure of the switch is optimal designed by analyzing its equi-frequency contours and bandgaps. Its performance is confirmed by finite-difference time-domain simulations. The designed optical switch may find important applications in the photonic integrated circuits..
Keywords
optical switch; photonic crystals; self-collimation; electromagnetically induced transparency.
Submitted at: July 5, 2016
Accepted at: Sept. 29, 2016
Citation
Z. WU, B. TANG, Q. ZHANG, Q. LUO, Y. QIU, Z. LIU, F. WANG, A fast optical switch for self-collimated beams in a photonic crystal with electromagnetically induced transparency media, Journal of Optoelectronics and Advanced Materials Vol. 18, Iss. 9-10, pp. 745-749 (2016)
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