Two dimensional temperature measurements by X-Y scanning of Er end doped silica fiber sensor

被引:0
|
作者
Morita, Kentaro [1 ]
Okabe, Asuka [1 ]
Ito, Sakiko [1 ]
Aizawa, Hiroaki [1 ]
Katsumata, Tooru [1 ]
Komuro, Shuji [1 ]
Morikawa, Takitaro [1 ]
机构
[1] Toyo Univ, Sensor Photon Res Ctr, Fac Engn, Tokyo, Japan
来源
2006 SICE-ICASE INTERNATIONAL JOINT CONFERENCE, VOLS 1-13 | 2006年
关键词
fiber-optic thermometer; Er end doped silica fibers sensor; Thermal excited luminescence;
D O I
暂无
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
Fiber-optic thermal radiation thermometry was studied using Er end doped silica fiber sensor. Visible light radiation peaks were clearly observed at lambda = 522nm and, 655nm, 80nm and 984mn from Er end doped silica fibers sensor. Theses peaks increase greatly with temperature of the sensor. Intensity ratio of thermally excited luminescence peaks at lambda = 522nm and 984nm, I-522/984, is suitable for the high temperature measurement. Two dimensional (2-D) temperature distributions in a flame are successfully visualized by X-Y scanning technique using Er end doped silica fiber sensor.
引用
收藏
页码:5933 / +
页数:2
相关论文
共 50 条
  • [21] A Novel Two-Dimensional Adaptive Dimming Technique of X-Y Channel Drivers for LED Backlight System in LCD TVs
    Oh, Won-Sik
    Cho, Daeyoun
    Cho, Kyu-Min
    Moon, Gun-Woo
    Yang, Byungchoon
    Jang, Taeseok
    JOURNAL OF DISPLAY TECHNOLOGY, 2009, 5 (1-3): : 20 - 26
  • [22] Thulium-doped intrinsic fiber optic sensor for high temperature measurements (>1100 °C)
    Zhang, ZY
    Grattan, KTV
    Palmer, AW
    Meggitt, BT
    REVIEW OF SCIENTIFIC INSTRUMENTS, 1998, 69 (09): : 3210 - 3214
  • [23] Dual temperature and strain sensor using a combined fiber Bragg grating and fluorescence intensity ratio technique in Er3+-doped fiber
    Trpkovski, S
    Wade, SA
    Baxter, GW
    Collins, SF
    REVIEW OF SCIENTIFIC INSTRUMENTS, 2003, 74 (05): : 2880 - 2885
  • [24] Temperature-dependent fluorescence characteristics of an ytterbium-sensitized erbium-doped silica fiber for sensor applications
    Baek, S
    Jeong, Y
    Nilsson, J
    Sahu, JK
    Lee, B
    OPTICAL FIBER TECHNOLOGY, 2006, 12 (01) : 10 - 19
  • [25] Temperature-Insensitive Micro Fabry-Prot Strain Sensor Fabricated by Chemically Etching Er-Doped Fiber
    Gong, Yuan
    Rao, Yun-Jiang
    Guo, Yu
    Ran, Zeng-Ling
    Wu, Yu
    IEEE PHOTONICS TECHNOLOGY LETTERS, 2009, 21 (22) : 1725 - 1727
  • [26] In-situ two-dimensional temperature measurements using x-ray fluorescence spectroscopy in laminar flames with high silica particle concentrations
    Meng, Qinghui
    Banyon, Colin
    Kim, Keunsoo
    Kim, John H.
    Kastengren, Alan L.
    Wooldridge, Margaret S.
    Tranter, Robert S.
    COMBUSTION AND FLAME, 2024, 266
  • [27] Self-referenced point temperature sensor based on a fluorescence intensity ratio in Yb3+-doped silica fiber
    Maurice, E
    Wade, SA
    Collins, SF
    Monnom, G
    Baxter, GW
    APPLIED OPTICS, 1997, 36 (31) : 8264 - 8269
  • [28] Temperature scanning small angle x-ray scattering measurements of structural relaxation in type-III vitreous silica
    Bruening, R.
    Levelut, C.
    Le Parc, R.
    Faivre, A.
    Semple, L.
    Vallee, M.
    Simon, J.-P.
    Hazemann, J.-L.
    JOURNAL OF APPLIED PHYSICS, 2007, 102 (08)
  • [29] Temperature Sensor Based on Er-Doped Cascaded-Peanut Taper Structure In-Line Interferometer in Fiber Ring Laser
    Lin, Weihao
    Zhao, Fang
    Shao, Li-Yang
    Vai, Mang I.
    Shum, Perry Ping
    Sun, Siming
    IEEE SENSORS JOURNAL, 2021, 21 (19) : 21594 - 21599
  • [30] Nodal synthetic kernel (N-SKN) method for solving neutron transport equation in one- and two-dimensional X-Y geometries
    Altac, Zekeriya
    Tekkalmaz, Mesut
    ANNALS OF NUCLEAR ENERGY, 2014, 64 : 320 - 332
12345