Tunable surface plasmon resonance polarization beam splitter based on dual-core photonic crystal fiber with magnetic fluid

被引:23
作者
Wang, Haiyang [1 ]
Yan, Xin [1 ]
Li, Shuguang [1 ]
Zhang, Xuenan [1 ]
机构
[1] Northeastern Univ, Coll Informat Sci & Engn, Shenyang, Liaoning, Peoples R China
来源
OPTICAL AND QUANTUM ELECTRONICS | 2017年 / 49卷 / 11期
关键词
Surface plasmon resonance; Polarization beam splitter; Photonic crystal fiber; Magnetic fluid; OPTICAL-FIBERS; DESIGN; SENSOR; BIREFRINGENCE; MODULATION; LATTICE; FILTER;
D O I
10.1007/s11082-017-1190-5
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
A tunable surface plasmon resonance based on polarization beam splitter (PBS) is proposed by using a dual-core photonic crystal fiber with magnetic fluid. Propagation characteristics of the PBS are analyzed by finite element method. The resonance wavelength which satisfied the phase matching condition shifts when change external magnetic field. Simulation results show that incident light wavelengths with a wide range of 1.45-1.55 mu m can be split, the minimum bandwidth of 168 nm and the extinction ratio can reach to - 128 dB when external magnetic field range 400-760 Oe at the same structure. These properties make the splitter we proposed a competitive candidate for fiber beam splitter.
引用
收藏
页数:10
相关论文
共 31 条
[11]   Photonic bandgap fiber-based surface plasmon resonance sensors [J].
Gauvreau, Bertrand ;
Hassani, Alireza ;
Fehri, Majid Fassi ;
Kabashin, Andrei ;
Skorobogatiy, Maksim .
OPTICS EXPRESS, 2007, 15 (18) :11413-11426
[12]   Polarization splitter based on dual-core photonic crystal fiber [J].
Jiang, Haiming ;
Wang, Erlei ;
Zhang, Jing ;
Hu, Lei ;
Mao, Qiuping ;
Li, Qian ;
Xie, Kang .
OPTICS EXPRESS, 2014, 22 (25) :30461-30466
[13]   Ultra-broadband and compact polarization splitter based on gold filled dual-core photonic crystal fiber [J].
Khaleque, Abdul ;
Hattori, Haroldo T. .
JOURNAL OF APPLIED PHYSICS, 2015, 118 (14)
[14]   Design of a compact photonic-crystal-based polarizing beam splitter [J].
Liu, T ;
Zakharian, AR ;
Fallahi, M ;
Moloney, JV ;
Mansuripur, M .
IEEE PHOTONICS TECHNOLOGY LETTERS, 2005, 17 (07) :1435-1437
[15]   Surface plasmon resonance sensor based on D-shaped microstructured optical fiber with hollow core [J].
Luan, Nannan ;
Wang, Ran ;
Lv, Wenhua ;
Yao, Jianquan .
OPTICS EXPRESS, 2015, 23 (07) :8576-8582
[16]   Demonstration of ultra-flattened dispersion in photonic crystal fibers [J].
Reeves, WH ;
Knight, JC ;
Russell, PSJ ;
Roberts, PJ .
OPTICS EXPRESS, 2002, 10 (14) :609-613
[17]   Phase modulation and structural effects in a D-shaped all-solid photonic crystal fiber surface plasmon resonance sensor [J].
Tan, Zhixin ;
Hao, Xin ;
Shao, Yonghong ;
Chen, Yuzhi ;
Li, Xuejin ;
Fan, Ping .
OPTICS EXPRESS, 2014, 22 (12) :15049-15063
[18]   Real-time observation of birefringence by laser-scanning surface plasmon resonance microscope [J].
Tanaka, T ;
Kawata, S .
OPTICS EXPRESS, 2005, 13 (18) :6905-6911
[19]   Numerical and experimental investigation of long-period gratings in photonic crystal fiber for refractive index sensing of gas media [J].
Tian, Fei ;
He, Zonghu ;
Du, Henry .
OPTICS LETTERS, 2012, 37 (03) :380-382
[20]   Improved analytical fit of gold dispersion:: Application to the modeling of extinction spectra with a finite-difference time-domain method -: art. no. 085416 [J].
Vial, A ;
Grimault, AS ;
Macías, D ;
Barchiesi, D ;
de la Chapelle, ML .
PHYSICAL REVIEW B, 2005, 71 (08)
1234