Voir la notice de l'article provenant de la source Math-Net.Ru
@article{SJIM_2010_13_1_a6,
author = {V. G. Nazarov},
title = {Determining the chemical composition of an inhomogeneous body by multi-energy radiography},
journal = {Sibirskij \v{z}urnal industrialʹnoj matematiki},
pages = {72--83},
publisher = {mathdoc},
volume = {13},
number = {1},
year = {2010},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/SJIM_2010_13_1_a6/}
}
TY - JOUR AU - V. G. Nazarov TI - Determining the chemical composition of an inhomogeneous body by multi-energy radiography JO - Sibirskij žurnal industrialʹnoj matematiki PY - 2010 SP - 72 EP - 83 VL - 13 IS - 1 PB - mathdoc UR - http://geodesic.mathdoc.fr/item/SJIM_2010_13_1_a6/ LA - ru ID - SJIM_2010_13_1_a6 ER -
V. G. Nazarov. Determining the chemical composition of an inhomogeneous body by multi-energy radiography. Sibirskij žurnal industrialʹnoj matematiki, Tome 13 (2010) no. 1, pp. 72-83. http://geodesic.mathdoc.fr/item/SJIM_2010_13_1_a6/
[1] Naidenov S. V., Ryzhikov V. D., “Ob opredelenii khimicheskogo sostava metodom multienergeticheskoi radiografii”, Pisma v “Zhurn. teor. fiziki”, 28:9 (2002), 6–13
[2] Zotev D. V., Filippov M. N., Yagola A. G., “Ob odnoi obratnoi zadache kolichestvennogo rentgenospektralnogo mikroanaliza”, Vychisl. metody i programmirovanie, 4 (2003), 26–32
[3] Fedoseev V. M., Rentgenovskii sposob obnaruzheniya veschestva po znacheniyu ego effektivnogo atomnogo nomera, Patent 2095795 Ros. Federatsiya, No 95115311/25; zayavl. 28.08.95; opubl. 10.11.97
[4] Rumyantsev A. N., Mostovoi V. I., Sukhoruchkin V. K., Yakovlev G. V., Sposob obnaruzheniya i nerazrushayuschego analiza veschestv, soderzhaschikh yadra legkikh elementov, Patent 2095796 Ros. Federatsiya, No 96112738/25; zayavl. 24.06.96; opubl. 10.11.97
[5] Anikonov D. S., Kovtanyuk A. E., Prokhorov I. V., Ispolzovanie uravneniya perenosa v tomografii, Logos, M., 2000
[6] Anikonov D. S., Nazarov V. G., Prokhorov I. V., Poorly visible media in X-ray tomography, VSP, Utrecht, 2002
[7] Nazarov V. G., “Opredelenie khimicheskogo sostava i struktury neodnorodnoi sredy metodom rentgenovskoi tomografii”, Zhurn. vych. matematiki i mat. fiziki, 47:8 (2007), 1413–1422 | MR
[8] Hubbell J. H., Seltzer S. M., Tables of $X$-ray mass attenuation coefficients and mass energyabsorption coefficients 1 Kev to 20 Mev for elements $Z=1$ to 92 and 48 addslional substances of dosimetric interest, NISTIR 5632, 1995
[9] Anikonov D. S., Kovtanyuk A. E., Kolev N. V., Kononenko A. A., Nazarov V. G., Baza dannykh radiatsionnykh kharakteristik veschestv, predstavlyayuschikh interes v rentgenodiagnostike, http://sxray.iam.dvo.ru/
[10] Nazarov V. G., Yarovenko I. P., Solnyshko N. V., “Chislennye eksperimenty v teorii perenosa izlucheniya s uchetom komptonovskogo rasseyaniya”, Sib. zhurn. industr. matematiki, 8:2(22) (2005), 135–143 | MR