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M Djavid, MS Abrishamian (2011)
Multi-channel drop filters using photonic crystal ring resonatorsOptik, 123
H Alipour-Banaei, F Mehdizadeh, S Serajmohammadi (2013)
A novel 4-channel demultiplexer based on photonic crystal ring resonatorsOptik, 124
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M Danaie, H Kaatuzian (2011)
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MHM Yusoff, HA Hassan, MR Hashim, MK Abd-Rahman (2011)
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MR Rakhshani, MAM Birjandi (2013)
Design and simulation of wavelength demultiplexer based on heterostructure photonic crystals ring resonatorsPhysica E, 50
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SD Gedney (2006)
Introduction to Finite-Difference Time-Domain (FDTD) Method for Electromagnetics
H Alipour-Banaei, S Serajmohammadi, F Mehdizadeh (2014)
All optical NAND and NOR gates based on nonlinear photonic crystal ring resonatorsOptik, 125
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ZJ Li, ZW Chen, BJ Li (2005)
Optical pulse controlled all optical logic gates in SiGe/Si multimode interferenceOpt. Express, 13
B Momeni, J Huan, M Soltani, M Askari, S Mohammadi, M Rakhshandehroo, A Adibi (2006)
Compact wavelength demultiplexing using focusing negative index photonic crystal superprismsOpt. Express, 42
Z Wu, K Xie, H Yang (2012)
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SC Cheng, JZ Wang, LW Chen, CC Wang (2011)
Multichannel wavelength division multiplexing system based on silicon rods of periodic lattice constant of hetero photonic crystal unitsOptik, 121
S Bouamami, R Naoum (2014)
New version of seven wavelength demultiplexer based on microcavities in a two-dimensional photonic crystalOptik, 125
H Alipour-Banaei, F Mehdizadeh, M Hassangholizadeh-Kashtiban (2013)
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SG Johnson, JD Joannopoulos (2001)
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S Sakoda (2001)
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W Rao, Y Song, M Liu, C Jin (2010)
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A Rostami, F Nazari, H Alipour Banaei (2010)
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G Manzacca, D Paciotti, A Marchese, MS Moreolo, G Cincotti (2007)
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In this paper, we used the novel defective resonant cavities to design an eight-channel photonic crystal demultiplexer. We showed that by choosing appropriate values for the width of the resonant cavity, the desired wavelengths can be separated. The proposed platform has a square lattice of dielectric rods immersed in air. The value of transmission efficiency for channels was obtained in 94 $$-$$ - 99 % range. In addition, the maximum value of crosstalk and average quality factor for channels were calculated –11.2 dB and 2200, respectively.
Photonic Network Communications – Springer Journals
Published: Jul 21, 2015
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