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Journal of Modern Optics Volume 61, 2014 - Issue 5
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Research Articles

Polarization beam splitter based on honeycomb-lattice photonic crystal ring resonators

Xiaofu XuSchool of Mechanical and Electrical Engineering, Sanming University, Sanming, 365004, P. R. China;Institute of Laser and Optoelectronics Technology, Fujian Provincial Key laboratory for Photonics Technology, Key Laboratory of Optoelectronic Science and Technology for Medicine of Ministry of Education, Fujian Normal University, Fuzhou, 350007, P. R. China
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Haifeng GuDepartment of Cardre Ward, The First Affiliated Hospital of Zhejiang University, Hangzhou, 310006, P. R. China
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Yanmin ZhengInstitute of Laser and Optoelectronics Technology, Fujian Provincial Key laboratory for Photonics Technology, Key Laboratory of Optoelectronic Science and Technology for Medicine of Ministry of Education, Fujian Normal University, Fuzhou, 350007, P. R. China
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Maojin WeiSchool of Mechanical and Electrical Engineering, Sanming University, Sanming, 365004, P. R. China
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Dongmei ZhengSchool of Mechanical and Electrical Engineering, Sanming University, Sanming, 365004, P. R. China
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Ronghui XiaoSchool of Mechanical and Electrical Engineering, Sanming University, Sanming, 365004, P. R. China
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Zexuan QiangInstitute of Laser and Optoelectronics Technology, Fujian Provincial Key laboratory for Photonics Technology, Key Laboratory of Optoelectronic Science and Technology for Medicine of Ministry of Education, Fujian Normal University, Fuzhou, 350007, P. R. ChinaCorrespondence[email protected]
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Pages 373-378 | Received 25 Sep 2013, Accepted 21 Jan 2014, Published online: 07 Feb 2014
 
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Abstract

A new polarization beam splitter is proposed based on a photonic crystal ring resonator (PCRR) composed of honeycomb-lattice cylindrical silicon rods in air. By shrinking the width of the bus waveguide and adjusting the radii of two nearest-neighbor center rods of the PCRR, an unpolarized beam can be separated well into TE and TM polarization states, respectively, at the backward and forward output ports. Simulation results obtained by the two-dimensional finite-difference time-domain technique show that the insertion losses are 3.58 dB and 3.08 dB, and the polarization extinction ratios are 21.42 dB and 28.53 dB for TE and TM polarization, respectively, at a 1566.7 nm center wavelength. The excess loss is less than 0.34 dB and its dimensions are roughly 43.2 μm × 27.52 μm. These findings offer potential practical applications in high-density photonic integrated circuits.

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