Theoretical investigation of photonic crystal fiber with highly nonlinear and birefringent

被引:0
|
作者
Li, Deyue [1 ]
Zhou, Guiyao [1 ,2 ,3 ]
Xia, Changming [1 ]
Liu, Jiantao [1 ]
Yuan, Jinhui [3 ]
Hou, Lantian [1 ,2 ]
机构
[1] Institute of Infrared Optical Fibers and Sensors, Yanshan University, Qinhuangdao, Hebei 066004, China
[2] State Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao, Hebei 066004, China
[3] Laboratory of Nanophotonic Functional Materials and Devices, South China Normal University, Guangzhou, Guangdong 510006, China
来源
Zhongguo Jiguang/Chinese Journal of Lasers | 2012年 / 39卷 / 11期
关键词
Dispersion characteristics - Effective mode areas - Effective refractive index - Full vector finite element methods - High birefringent - High nonlinear - Nonlinear coefficient - Theoretical investigations;
D O I
10.3788/CJL201239.1105003
中图分类号
学科分类号
摘要
According to the full-vector finite element method, a new highly nonlinear and birefringence photonic crystal fiber (PCF) with zero-dispersion at wavelength of 1550 nm is designed. The effective refractive index, effective mode area, birefringence, nonlinear coefficient and dispersion characteristics of the PCF are analyzed. Simulation results show that birefringence of the PCF is 4.049×10-3, and nonlinear coefficient reaches 28.4 km-1·W-1 at wavelength of 1550 nm, which are obtained under the condition of cladding air hole pitch size of 1.6 μm, large air hole diameter of 1.4 μm and small air hole diameter of 0.74 μm and 0.76 μm respectively. The PCF has very broad prospect of application in 1550 nm communication band.
引用
收藏
相关论文
共 50 条
  • [1] Highly nonlinear birefringent photonic crystal fiber
    Ademgil, H.
    Haxha, S.
    [J]. OPTICS COMMUNICATIONS, 2009, 282 (14) : 2831 - 2835
  • [2] Highly Nonlinear and Highly Birefringent Hybrid Photonic Crystal Fiber
    Tabassum, Nuzat
    Rashid, Md. Mamunur
    Yesmin, Afsana
    Islam, Mohammad Emdadul
    [J]. 2019 1ST INTERNATIONAL CONFERENCE ON ROBOTICS, ELECTRICAL AND SIGNAL PROCESSING TECHNIQUES (ICREST), 2019, : 292 - 296
  • [3] Highly Nonlinear Birefringent Tellurite Photonic Crystal Fiber
    Abdelghani, A. M.
    Hameed, Mohamed Farhat O.
    Abdelrazzak, Maher
    Hindy, M. A.
    Obayya, S. S. A.
    [J]. MICRO-STRUCTURED AND SPECIALTY OPTICAL FIBRES III, 2014, 9128
  • [4] Highly Nonlinear and Birefringent Spiral Photonic Crystal Fiber
    Revathi, S.
    Inbathini, Srinivasa Rao
    Saifudeen, Rizwan Ali
    [J]. ADVANCES IN OPTOELECTRONICS, 2014, 2014
  • [5] Highly nonlinear and highly birefringent dispersion compensating photonic crystal fiber
    Hasan, M. I.
    Habib, M. Selim
    Habib, M. Samiul
    Razzak, S. M. Abdur
    [J]. OPTICAL FIBER TECHNOLOGY, 2014, 20 (01) : 32 - 38
  • [6] Highly nonlinear and birefringent photonic crystal fiber at 1.55 μm
    Mayilamu, Musideke
    Yao, Jian-Quan
    Lu, Ying
    Miao, Yin-Ping
    [J]. Guangxue Jingmi Gongcheng/Optics and Precision Engineering, 2014, 22 (03): : 588 - 596
  • [7] Design Optimization of a Highly Birefringent and Highly Nonlinear Silicon Photonic Crystal Fiber
    Ghunawat, Ashish Kumar
    Chandra, Ritesh
    Tiwari, Manish
    Singh, Ghanshyam
    [J]. OPTICAL AND WIRELESS TECHNOLOGIES, OWT 2017, 2018, 472 : 301 - 308
  • [8] Design on a highly birefringent and nonlinear photonic crystal fiber in the C waveband
    Li Duan-Ming
    Zhou Gui-Yao
    Xia Chang-Ming
    Wang Chao
    Yuan Jin-Hui
    [J]. CHINESE PHYSICS B, 2014, 23 (04)
  • [9] Birefringent Bragg Gratings in Highly-Nonlinear Photonic Crystal Fiber
    Kevin. Cook
    John. Canning
    John. Holdswowth
    [J]. Journal of Electronic Science and Technology, 2008, 6 (04) : 426 - 428
  • [10] Design on a highly birefringent and nonlinear photonic crystal fiber in the C waveband
    李端明
    周桂耀
    夏长明
    王超
    苑金辉
    [J]. Chinese Physics B, 2014, 23 (04) : 314 - 317
12345