Design of a large effective-area nonzero-dispersion fiber for DWDM systems

被引:1
|
作者
Survaiya, SP [1 ]
Shevgaonkar, RK
机构
[1] Indian Inst Technol, Dept Elect & Commun Engn, N Guwahati 781031, India
[2] Indian Inst Technol, Dept Elect Engn, Bombay 400076, Maharashtra, India
来源
MICROWAVE AND OPTICAL TECHNOLOGY LETTERS | 2001年 / 29卷 / 04期
关键词
fiber dispersion; Kerr nonlinearity; four-wave mixing; large effective-core-area fiber; wavelength-division multiplexing;
D O I
10.1002/mop.1143
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
In this paper, we analyze and propose an optimum index profile which can give a larger core effective area with nonzero-dispersion characteristics. The index profile is modeled by an exponentially modulated linear chirp profile function. A linear finite-element method (LFEM) is used for computing the transmission characteristics of an optical fiber having an arbitrary refractive-index profile. The optimum index profile can give a core effective area of 117 mum(2). The dispersion varies linearly from 2.5 to 4.5 ps / nm . km with a dispersion slope of 0.065 ps / nm(2) . km over the 1.53-1.56 mum wavelength range. Sensitivity analysis for the designed fiber characteristics is also studied. The bend loss is about 0.001 dB / m for a bend radius of 100 mm. (C) 2001 John Wiley & Sons, Inc.
引用
收藏
页码:238 / 244
页数:7
相关论文
共 50 条
  • [21] Design and fabrication of locally dispersion-flattened large effective area fibers
    Liu, YM
    Mattingly, WB
    Smith, DK
    Lacy, CE
    Cline, JA
    De Liso, EM
    24TH EUROPEAN CONFERENCE ON OPTICAL COMMUNICATION, VOL 1-3: VOL 1: REGULAR AND INVITED PAPERS; VOL 2: TUTORIALS AND SYMPOSIUM PAPERS; VOL 3: POSTDEADLINE PAPERS, 1998, : 37 - 38
  • [22] 8 x 40Gbit/s transmission over 640km of large-effective-area nonzero-dispersion shifted fibre with an input power tolerance greater than 7dB
    Murai, H
    Yamada, HT
    Pratt, AR
    Ozeki, Y
    ELECTRONICS LETTERS, 2000, 36 (17) : 1479 - 1480
  • [23] CSO/CTB performances improvement by using chirped fiber grating and large effective area fiber in a bi-directional DWDM system
    Lu, HH
    Tsai, WS
    ACTIVE AND PASSIVE OPTICAL COMPONENTS FOR WDM COMMUNICATIONS II, 2002, 4870 : 704 - 709
  • [24] CSO/CTB performances improvement by using chirped fiber grating and large effective area fiber in a bi-directional DWDM system
    Lu, HH
    Tsai, WS
    OPTICAL TRANSMISSION SYSTEMS AND EQUIPMENT FOR WDM NETWORKING, 2002, 4872 : 337 - 342
  • [25] A New Design of Photonic Crystal Fiber with Fattened Dispersion and Low Effective Mode Area
    Li, Di
    Xu, Qiang
    Yuan, Duqi
    Duan, Xuchao
    ADVANCED ENGINEERING MATERIALS II, PTS 1-3, 2012, 535-537 : 1304 - 1307
  • [26] Design of a large effective mode area photonic crystal fiber with modified rings
    Abdelaziz, Ilyes
    Ademgil, Huseyin
    AbdelMalek, Fathi
    Haxha, Shyqyri
    Gorman, Terry
    Bouchriha, Habib
    OPTICS COMMUNICATIONS, 2010, 283 (24) : 5218 - 5223
  • [27] Dispersion-flattened photonic crystal fiber with large effective area and low confinement loss
    Matsui, T
    Zhou, J
    Nakajima, K
    Sankawa, I
    JOURNAL OF LIGHTWAVE TECHNOLOGY, 2005, 23 (12) : 4178 - 4183
  • [28] Design and optimization of photonic crystal fiber with flat chromatic dispersion and large mode area
    Institute of Infrared Optical Fibers and Sensors, Yanshan University, Qinhuangdao 066004, China
    不详
    Bandaoti Guangdian, 2006, 6 (725-728+732):
  • [29] Dispersion Compensators Based on Overlaped Linearly Chirped Fiber Gratings for DWDM Systems
    LI Tangjun Ning Tigang WANG Muguang JIAN Shuisheng (Institute of Lightwave Technology
    Chinese Journal of Lasers, 2001, (06) : 18 - 22
  • [30] Dispersion compensators based on overlaped linearly chirped fiber gratings for DWDM systems
    Li, Tangjun
    Ning, Tigang
    Wang, Muguang
    Jian, Shuisheng
    2001, Science Press (10): : 417 - 421
12345