KnE Materials Science

ISSN: 2519-1438

The latest conference proceedings on physical materials, energy materials, electrical materials.

Optical Fibers Based on Modified Silver Halide Crystals for Nuclear Power

Published date: Oct 14 2018

Journal Title: KnE Materials Science

Issue title: Sino-Russian ASRTU Conference Alternative Energy: Materials, Technologies, and Devices

Pages: 217-222

DOI: 10.18502/kms.v4i2.3055

Authors:
Abstract:

We investigated the possibility of the deployment of AgBr – TlBr0.46I0.54MIR fibers in high ionizing radiation environment. For this purpose, we exposed plate samples made of AgBr – TlBr0.46I0.54crystals to β-ionizing radiation at a dose of 100 kGy. We revealed the radiation-induced translucence effect for these materials and assumed its nature. As the investigation showed the suitability of the fibers for the application in high ionizing radiation environment, the authors propose to use these fibers jointly with FTIR spectrometers for the online monitoring of various chemical processes at the nuclear power plants.

Keywords: modified silver halides, MIR fibers, FTIR spectroscopy, ionizing radiation resistance

References:

[1] Report on the functioning of Russian nuclear power plants in 2017. Retrieved from http://www.so-ups.ru, 2018 (accessed on 5 July 2018).


[2] Choi, S. Y., Choo, J., Chung, H., et al. (2003). Feasibility of Fourier Transform (FT) Infrared spectroscopy for monitoring heavy water concentration in pressurized heavy water reactor. Vibrational Spectroscopy, vol. 31, pp. 251–256.


[3] Lumetta, G. J., Braley, J. C., Peterson, J. M., et al. (2012). Separating and stabilizing phosphate from high-level radioactive waste: Process development and spectroscopic monitoring. Environmental Science and Technology, vol. 46, pp. 6190– 6197.


[4] Korsakov, A., Salimgareev, D., Lvov, A., et al. (2016). Antireflective coating for AgBr - Til and AgBr – ТlBr0.46I0.54 solid solution crystals. Optical Materials, vol. 62, pp. 534– 537.


[5] Shulgin, B., Ishchenko, A., Bazhukov, S., et al. (20 September 2016). Method for increasing the radiation resistance and stabilizing the light transmission of germanium silicate glass fibers. Ru Patent No. 2598093.


[6] Artyushenko, V. G., Voitsekhovskii, V. V., Kornienko, L. S., et al. (1984). Effect of ionizing radiation on optical properties of thallium halides. Physica Status Solidi (A), vol. 86, pp. 67–171.


[7] Meshkovsky, I. K., Safin, V. M., and Stepanov, V. E. (2000). High radiation durability of optical elements made of porous glass. Optica Applicata, vol. 30, pp. 591–593.

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