THE EFFECT OF MODE DISTRIBUTION ON EVANESCENT FIELD INTENSITY - APPLICATIONS IN OPTICAL FIBER SENSORS

被引:10
|
作者
COLIN, TB
YANG, KH
STWALLEY, WC
机构
[1] UNIV IOWA,CTR LASER SCI & ENGN,IOWA CITY,IA 52242
[2] UNIV IOWA,DEPT CHEM,IOWA CITY,IA 52242
[3] UNIV IOWA,DEPT PHYS & ASTRON,IOWA CITY,IA 52242
来源
APPLIED SPECTROSCOPY | 1991年 / 45卷 / 08期
关键词
INFRARED; INSTRUMENTATION; SENSORS; OPTICS; FIBER OPTICS;
D O I
10.1366/0003702914335706
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
This paper discusses the theoretical and experimental implications of changing the distribution of energy among the guided modes of an optical fiber. Particular emphasis is placed on optimizing the intensity of the evanescent field for near-infrared sensor applications. Both theoretical and experimental results show that, by the shifting of energy from low-to high-order modes, the evanescent field can be enhanced by as much as an order of magnitude. A second benefit of adjusting the mode distribution through mode scrambling is the generation of a stable mode distribution which is relatively insensitive to minor changes in the fiber-optic launch conditions. Therefore, mode scambling can provide a more stable and more sensitive evanescent field sensor suitable for spectroscopic applications.
引用
收藏
页码:1291 / 1295
页数:5
相关论文
共 50 条
  • [1] Nano- Optical Fiber Evanescent Field Sensors
    Chyad, Radhi M.
    Jafri, Mohd Zubir Mat
    Ibrahim, Kamarulazizi
    [J]. ADVANCED MATERIALS ENGINEERING AND TECHNOLOGY, 2012, 626 : 1027 - 1032
  • [2] Numerical Study of the Evanescent Field Coupling Effect on Two Optical Fiber Sensors
    Hasan, Nursyahida M.
    Mutter, K. N.
    Matjafri, M. Z.
    Lim, H. San
    Yeoh, S.
    Oglat, Ammar A.
    [J]. PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON MATHEMATICAL SCIENCES AND TECHNOLOGY 2018 (MATHTECH 2018): INNOVATIVE TECHNOLOGIES FOR MATHEMATICS & MATHEMATICS FOR TECHNOLOGICAL INNOVATION, 2019, 2184
  • [3] Star cross section polymer fiber for evanescent field optical sensors
    Chillcce, E. F.
    Faustino, W. M.
    Jacob, G. J.
    Rodriguez, E.
    Moreira, W. M.
    Cesar, C. L.
    Barbosa, L. C.
    [J]. OPTICAL COMPONENTS AND MATERIALS IV, 2007, 6469
  • [4] EVANESCENT FIELD AMPLIFICATION IN A TAPERED SINGLE-MODE OPTICAL FIBER
    MACKENZIE, HS
    PAYNE, FP
    [J]. ELECTRONICS LETTERS, 1990, 26 (02) : 130 - 132
  • [5] Optical Mode Convertor for Enhanced Sensitivity in Evanescent Field Absorption Chemical Sensors
    Arockiadoss, Jones
    Wang, Nan
    Lee, Lennon
    [J]. 2019 IEEE 16TH INTERNATIONAL CONFERENCE ON GROUP IV PHOTONICS (GFP 2019), 2019,
  • [6] Micro double tapered optical fiber sensors based on the evanescent field-effect and surface modification
    Zhang Qiang
    Li Junyang
    Yuan Yanling
    Gao Libo
    Xue Chenyang
    [J]. OPTIK, 2014, 125 (17): : 4614 - 4617
  • [7] Fabrication, modeling, and direct evanescent field measurement of tapered optical fiber sensors
    Moar, PN
    Huntington, ST
    Katsifolis, J
    Cahill, LW
    Roberts, A
    Nugent, KA
    [J]. JOURNAL OF APPLIED PHYSICS, 1999, 85 (07) : 3395 - 3398
  • [8] MIR-evanescent-field fiber sensors
    Willer, U
    Blanke, T
    Schade, W
    [J]. ADVANCED ENVIRONMENTAL AND CHEMICAL SENSING TECHNOLOGY, 2001, 4205 : 232 - 239
  • [9] Enlarging the evanescent field scope by nanoparticle scattering for nanoparticle sensing of optical fiber sensors
    Luo, Ji
    Zhuang, Xuye
    Yao, Jun
    [J]. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART N-JOURNAL OF NANOMATERIALS NANOENGINEERING AND NANOSYSTEMS, 2012, 226 (01) : 39 - 43
  • [10] Electrospun nanofiber mats for evanescent optical fiber sensors
    Urrutia, Aitor
    Goicoechea, Javier
    Rivero, Pedro J.
    Matias, Ignacio R.
    Arregui, Francisco J.
    [J]. SENSORS AND ACTUATORS B-CHEMICAL, 2013, 176 : 569 - 576
12345