References
- GENTILE, C. A., PARKER, J. J., ZWEBEN, S. J. In-situ imaging and quantification of tritium surface contamination via coherent fiber bundle. -Fusion Science and Technology, May 2002, v. 41, N 3, part 2, p. 551.
- TANABE, T., MIYASAKA, K., NISHIZAWA, K. Surface tritium detection by imaging plate technique. -Fusion Science and Technology, May 2002, v. 41, N 3, part 2, p. 528.
- MARKIN, A. I., UTYUGOV, E. G., CHERCOVETS, V. E. Method of visualization on the screen of investigated objects images and the device for realization of a method. - Patent N2101800 RU. A Class 6 H 01 J 37/285, 31/50. Bull. №1. 1.10.01.98.
- MARKIN, A. I., CHERKOVETS, V. E. Magnetovizor for imaging of surfaces, emitting charged particles. Atomic energy, 2004, v. 96, issue 4, p. 285–291.
- F. REITER, K. FORCEY, G. GERVASINI. A compilation of tritium-material interaction parameters in fusion reactor materials. Joint Research Centre Report EUR 15217 EN Commission of the European Communities, ISPRA, 1993.
- A. N. PEREVEZENTSEV, L. A. RIVKIS, V. V. GUSCHIN et al. Study of tritium distribution in various metals. Fusion Science and Technology, 2005, v.48, #x2116;1, Jul/Aug. p.208–211.
- V. E. CHERKOVETS, E. A. AZIZOV, A. I. MARKIN, N. I. SYROMYATNIKOV, N. N. RYAZANTSEVA, L. A. RIVKIS. The Investigation of Tritium Contamination of Thermonuclear Material Surfaces Using Nonuniform Magnetic Systems. Fusion Science and Technology, v. 48, n. 1, July/August 2005, p. 374-377