S. Yamamoto and T. Shikama, “Studies of radiation effects in optical components for ITER diagnostics,” in Proc. SPIE Conf. Photonics for Space and Radiation Environments, vol. 3872, 1999, pp. 36–52.
M. Decreton and J. De Geeter, “Remote maintenance of future fusion reactors—A challenge for rad-hard components and smart control strategies,” in Proc. Int. Conf. Remote Techniques for Hazardous Environments, 1996, pp. 99–106.
C. Walker, “Diagnostic equipment in the ITER-FEAT radiation environment,” in Combined Meeting Neutron and Gamma Irradiation Effects on ITER In-Vessel Components, CIEMAT Fusion Association, Madrid, Spain, Jan. 2000.
S. Coenen, T. Geysen, J. Struyfs, and M. Decreton, “Development of radiation resistant multiplexing system with discrete COTS components for very high total dose levels,” in Proc. RADECS’98, 1998.
F. Berghmans, M. V. Uffelen, A. Nowodzinski, B. Brichard, P. Jucker, and M. Decreton, “High total dose irradiation experiments on fiber optic components for fusion reactor environments,” in Proc. SPIE Conf. Photonics for Space and Enhanced Radiation Environments, vol. 3872, 1999, pp. 17–26.
A. Othonos and K. Kalli, Fiber Bragg Gratings: Fundamentals and Applications in Telecommunications and Sensing. Norwood, MA: Artech House, 1999.
P. Ferdinand, S. Magne, S. Rougeault, P. Bernage, M. Douay, E. Fertein, F. Lahoreau, P. Niay, J. Bayon, T. Georges, and M. Monerie, “Optical fiber Bragg grating sensors for structure monitoring within the nuclear power plants,” Proc. SPIE, vol. 2425, pp. 11–20, 1994.
A. Gusarov, F. Berghmans, O. Deparis, A. F. Fernandez, Y. Defosse, P. Megret, M. Decreton, and M. Blondel, “High total dose radiation temperature effects on temperature sensing fiber Bragg gratings,” IEEE Photon. Technol. Lett., vol. 11, pp. 1159–1161, Sept. 1999.
S. Hirose and K. Yoneda, “Development of optical 6-axial force sensor and its signal calibration considering non linear calibration,” in Proc. Int. Conf. Robotics and Automation, 1990, pp. 46–53.
V. Scheinman, “Design of a computer controlled manipulator,” M.S. thesis, Mechanical Engineering Dept., Stanford Univ., Stanford, CA, 1969.
P. Watson and S. Drake, “Pedestal and wrist force sensors for automatic assembly,” in Proc. 5th Int. Symp. Industrial Robots, 1977, pp. 501–511.
B. Shimano and B. Roth, “On force sensing information and its use in controlling manipulators,” in Proc. IFAC Int. Symp. Information-Control Problems, 1977, pp. 119–126.
H. V. Brussel, H. Belien, and H. Thielemans, “Force sensing for advanced robot control,” Robotics, vol. 2, pp. 138–148, 1986.
A. F. Fernandez, F. Berghmans, A. Gusarov, O. Deparis, Y. Defosse, M. Decreton, P. Megret, M. Blondel, and A. Delchambre, “Multi-component force sensors based on fiber Bragg grating strain sensors for highly radioactive environments,” in Proc. Photomec’99 Eur. Workshop, 1999, pp. 127–133.
D. M. Gorinevsky, A. Formalsky, and A. Schneider, Force Control of Robotics Systems. New York: CRC Press, 1997.
S. Coenen, “Radiation assessment of standard components—Irradiation report on strain gauges, ITER Task T252,” Belgian Nuclear Research Centre, Tech. Rep. R-3355, SCK-CEN, 1999.
A. F. Fernandez, F. Berghmans, B. Brichard, A. Gusarov, O. Deparis, M. Decreton, P. Megret, M. Blondel, and A. Delchambre, “Multi-component force sensors based on multiplexed fiber Bragg grating strain sensors,” in Proc. SPIE 14th Int. Conf. Optical Fiber Sensors (OFS-14), vol. 4185, 2000, pp. 106–109.
S. Vasiliev, E. Dianov, K. Golant, O. Medvedkov, A. Tomashuk, V. Karpov, M. Grekov, A. Kurkov, B. Lecomte, and P. Niay, “Performance of Bragg and long-period gratings written in N-doped and Ge-doped silica fibers under γ-radiation,” in Proc. RADECS’97, 1997.
P. Niay, P. Bernage, M. Douay, F. Lahoreau, J. Bayon, T. Georges, M. Monerie, P. Ferdinand, S. Rougeault, and P. Cetier, “Behavior of Bragg gratings, written in germanosilicate fibers, against γ-ray exposure at low dose rate,” IEEE Photon. Technol. Lett., vol. 6, pp. 1350–1352, 1994.
S. Coenen, J. Vermunt, L. V. den Durpel, M. Decreton, and A. Rahn, “Gamma irradiation facilities for assessment of advanced instrumentation,” in Research Facilities for the Future of Nuclear Energy, ENS Class 1 Topical Meeting, 1996, pp. 382–391.
A. Gusarov, F. Berghmans, A. F. Fernandez, O. Deparis, Y. Defosse, D. Starodubov, P. Megret, M. Decreton, and M. Blondel, “Behavior of fiber Bragg gratings under high total dose gamma radiation,” IEEE Trans. Nucl. Sci., vol. 47, pp. 688–692, June 2000.
H. Henschel, O. Kohn, and H. Schmidt, “Radiation sensitivity of fiber optic couplers,” Proc. SPIE, vol. 1791, pp. 151–163, 1992.
M. V. Uffelen, Private communication, 2000.
E. Taylor, “Advancement of radiation effects research in photonic technologies: Application to space platforms and systems,” Proc. SPIE, vol. CR66, pp. 58–92, 1997.
R. Gutierez, G. Swift, S. Dubovitsky, R. Bartman, C. Barnes, and L. Dorsky, “Radiation effects on fused biconical taper wavelength division multiplexer,” IEEE Trans. Nucl. Sci., vol. 41, pp. 1950–1957, Dec. 1994.
J. Baugnet, C. D. Raedt, F. Leonard, F. Moons, and G. Vanmassenhove, “The BR2 material testing reactor: Its capability for fast, thermal and fusion reactor experiments,” in Fast, Thermal and Fusion Reactor Experiments Conf., Apr. 1982.
“Fiber optic test procedure-64: Procedure for measuring radiation-induced attenuation in optical fibers and optical cables,” in FOTP-64, 1995, vol. TIA/EIA-455-64, pp. 1–35.
H. Henschel, “Radiation hardness of present optical fibers,” Proc. SPIE, vol. 2425, pp. 21–31, 1994.
