Optical fiber dosimetry at the tesla test facility (TTF)

被引:0
|
作者
Henschel, H
Köhn, O
Körfer, M
Stegmann, T
Wittenburg, K
Wulf, F
机构
来源
BEAM INSTRUMENTATION WORKSHOP 2000 | 2000年 / 546卷
关键词
D O I
暂无
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
Ionizing radiation leads to a degradation of the light transmitting properties of fiber optic cables. These effects usually place restrictions on where they can be used in a particle accelerator facility. These effects can also be used to our advantage, the losses from a particle beam create wavelength dependant increases of attenuation by absorption and scattering which can be measured using Optical Time Domain Reflectometery (OTDR). From these measurements a measure of the radiation dose received can be inferred.
引用
收藏
页码:647 / 649
页数:3
相关论文
共 50 条
  • [31] Measurement of the beam position in the TESLA Test Facility Linac
    Lorenz, R
    Sachwitz, M
    Schreiber, HJ
    Tonisch, F
    PROCEEEDINGS OF THE XVIII INTERNATIONAL LINEAR ACCELERATOR CONFERENCE, VOLS 1 AND 2, 1996, 96 (07): : 527 - 529
  • [32] Parameter study of the VUV FEL at the TESLA Test Facility
    Brefeld, W
    Faatz, B
    Nikitina, YM
    Pfluger, J
    Pierini, P
    Rossbach, J
    Saldin, EL
    Schneidmiller, EA
    Yurkov, MV
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 1996, 375 (1-3): : 295 - 298
  • [33] Bunch compression system at the TESLA test facility FEL
    DESY, Hamburg, Germany
    Nucl Instrum Methods Phys Res Sect A, 1-3 (322-324):
  • [34] Progress in the study and construction of the TESLA test facility injector
    Chehab, R
    Bernard, M
    Bourdon, JC
    Garvey, T
    Jacquemard, B
    Mencick, M
    Mouton, B
    Omeich, M
    Rodier, J
    Roudier, P
    Saury, JL
    TaurignaQuere, M
    Thiery, Y
    Aune, B
    Desmons, M
    Fusellier, J
    Gougnaud, F
    Gournay, JF
    Jablonka, M
    Joly, JM
    Juillard, M
    Lussignol, Y
    Mosnier, A
    Phung, B
    Buhler, S
    Junquera, T
    PROCEEDINGS OF THE 1995 PARTICLE ACCELERATOR CONFERENCE, VOLS 1-5, 1996, : 998 - 1000
  • [35] Studies on a free electron laser for the TESLA test facility
    Rossbach, J
    PROCEEDINGS OF THE 1995 PARTICLE ACCELERATOR CONFERENCE, VOLS 1-5, 1996, : 189 - 191
  • [36] Measurement of the bunch length at the TESLA Test Facility linac
    Hanke, K
    MICRO BUNCHES WORKSHOP, 1996, (367): : 406 - 410
  • [37] FPGA based cavity simulator for Tesla test facility
    Zabolotny, WM
    Bunkowski, K
    Czarski, T
    Jezynski, T
    Pozniak, K
    Rutkowski, P
    Simrock, S
    Romaniuk, R
    PHOTONICS APPLICATIONS IN ASTRONOMY, COMMUNICATIONS, INDUSTRY, AND HIGH-ENERGY PHYSICS EXPERIMENTS II, 2004, 5484 : 139 - 147
  • [38] The vacuum system for the superconducting linac of the TESLA test facility
    Zapfe, K
    VACUUM, 2001, 60 (1-2) : 51 - 56
  • [39] Remote optical fiber dosimetry
    Huston, AL
    Justus, BL
    Falkenstein, PL
    Miller, RW
    Ning, H
    Altemus, R
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS, 2001, 184 (1-2): : 55 - 67
  • [40] Fabrication and testing of a combined superconducting magnet for the TESLA Test Facility
    Toral, F.
    Abramian, P.
    Brueck, H.
    Calero, J.
    Garcia-Tabares, L.
    Gutierrez, J. L.
    Maschmann, W.
    Rodriguez, E.
    Sanz, S.
    Stolper, M.
    Vazquez, C.
    IEEE TRANSACTIONS ON APPLIED SUPERCONDUCTIVITY, 2006, 16 (02) : 231 - 235
12345