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Publications in Math-Net.Ru |
Citations |
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2024 |
1. |
Регулярные пульсации температуры графитовых образцов при квазистационарном джоулевом нагреве
TVT, Forthcoming paper |
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2022 |
2. |
V. P. Polishchuk, I. S. Samoilov, R. Kh. Amirov, V. I. Kiselev, “The growth of submillimeter spherules on a graphite surface under prolonged heating”, TVT, 60:4 (2022), 565–574 ; High Temperature, 60:4 (2022), 513–522 |
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2020 |
3. |
V. P. Polishchuk, R. A. Usmanov, A. D. Melnikov, N. A. Vorona, I. M. Yartsev, R. Kh. Amirov, A. V. Gavrikov, G. D. Liziakin, I. S. Samoilov, V. P. Smirnov, N. N. Antonov, “Vacuum arcs with diffuse cathode attachment (review)”, TVT, 58:4 (2020), 515–535 ; High Temperature, 58:4 (2020), 476–494 |
9
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4. |
M. B. Shavelkina, R. Kh. Amirov, D. I. Kavyrshin, V. F. Chinnov, “Spectroscopic study of a helium plasma jet with hydrocarbon additives”, TVT, 58:3 (2020), 327–335 ; High Temperature, 58:3 (2020), 309–316 |
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5. |
V. P. Polishchuk, I. S. Samoilov, R. Kh. Amirov, A. V. Kirillin, V. I. Kiselev, “Graphite melting at “low” temperature”, TVT, 58:2 (2020), 215–231 ; High Temperature, 58:2 (2020), 197–212 |
5
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2019 |
6. |
M. B. Shavelkina, R. Kh. Amirov, “Direct synthesis of hydrogenated graphene via hydrocarbon decomposition in plasmas”, Nanosystems: Physics, Chemistry, Mathematics, 10:1 (2019), 102–106 |
2
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2018 |
7. |
M. B. Shavelkina, R. Kh. Amirov, T. B. Shatalova, V. A. Katarzhis, “Synthesis of carbon fibers in the decomposition of acetylene and propane–butane mixture in a plasma jet”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 44:22 (2018), 42–47 ; Tech. Phys. Lett., 44:11 (2018), 1017–1019 |
1
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8. |
V. P. Polishchuk, I. S. Samoilov, R. Kh. Amirov, V. I. Kiselev, “Liquid phase formation on graphite electrode surface in arc discharge”, TVT, 56:3 (2018), 338–345 ; High Temperature, 56:3 (2018), 327–333 |
3
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2016 |
9. |
R. H. Amirov, M. E. Iskhakov, M. B. Shavelkina, “Synthesis of high-purity multilayer graphene using plasma jet”, Nanosystems: Physics, Chemistry, Mathematics, 7:1 (2016), 60–64 |
2
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10. |
R. Kh. Amirov, S. A. Barengol'ts, E. V. Korostelev, N. V. Pestovskii, A. A. Petrov, S. Yu. Savinov, I. S. Samoilov, “The airflow effect on a negative corona discharge”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 42:17 (2016), 64–69 ; Tech. Phys. Lett., 42:9 (2016), 912–914 |
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11. |
R. Kh. Amirov, V. I. Kiselev, V. Ya. Mendeleev, V. P. Polishchuk, I. S. Samoilov, S. N. Skovorod'ko, “Melt formation on the graphite electrode surface in a diffusive arc discharge”, TVT, 54:5 (2016), 681–692 ; High Temperature, 54:5 (2016), 644–654 |
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2014 |
12. |
R. Kh. Amirov, E. Kh. Isakaev, M. B. Shavelkina, D. I. Yusupov, T. B. Shatalova, R. M. Emirov, “Plasma jet synthesis of carbon nanostructures and a set-up for its implementation”, Uchenye Zapiski Kazanskogo Universiteta. Seriya Fiziko-Matematicheskie Nauki, 156:4 (2014), 112–119 |
2
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2011 |
13. |
S. A. Kislenko, R. Kh. Amirov, I. S. Samoilov, “Coulomb Screening in the Strongly Coupled Ionic Liquid [$\mathrm{BMIM}$][$\mathrm{PF}_6$]”, TVT, 49:1 (2011), 133–135 ; High Temperature, 49:1 (2011), 135–137 |
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1998 |
14. |
R. Kh. Amirov, E. I. Asinovskii, I. S. Samoilov, “Ozone synthesis in cryogenic plasma”, TVT, 36:6 (1998), 870–876 ; High Temperature, 36:6 (1998), 847–853 |
1
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1992 |
15. |
R. Kh. Amirov, E. I. Asinovskii, K. Zeliger, I. S. Samoilov, “Устройство для предотвращения развития дугового пробоя”, TVT, 30:1 (1992), 185–188 |
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1991 |
16. |
R. Kh. Amirov, E. I. Asinovskii, I. S. Samoilov, A. V. Shepelin, “Dynamics of energy dissipation in nanosecond corona discharges”, TVT, 29:6 (1991), 1053–1059 ; High Temperature, 29:6 (1991), 844–849 |
17. |
R. Kh. Amirov, E. I. Asinovskii, I. S. Samoilov, “Growth of a nanosecond discharge in a conical shell”, TVT, 29:5 (1991), 833–839 ; High Temperature, 29:5 (1991), 649–654 |
18. |
R. Kh. Amirov, E. I. Asinovskii, S. V. Kostyuchenko, “Decay of $\mathrm{SF}_6$ plasmas after nanosecond breakdown”, TVT, 29:4 (1991), 671–677 ; High Temperature, 29:4 (1991), 521–526 |
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1987 |
19. |
R. Kh. Amirov, E. I. Asinovskii, S. V. Kostyuchenko, V. V. Markovets, “Распад плазмы фтора после наносекундного разряда”, TVT, 25:4 (1987), 793–795 |
1
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1984 |
20. |
R. Kh. Amirov, E. I. Asinovskii, V. V. Markovets, “Диссоциация водорода в наносекундном разряде”, TVT, 22:5 (1984), 1002–1004 |
3
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1981 |
21. |
R. Kh. Amirov, E. I. Asinovskii, V. V. Markovets, “Метод диагностики динамики ионизации в наносекундном разряде”, TVT, 19:2 (1981), 424–425 |
22. |
R. Kh. Amirov, E. I. Asinovskii, V. V. Markovets, “Pause in plasma emission after nanosecond-pulse excitation”, TVT, 19:1 (1981), 47–51 ; High Temperature, 19:1 (1981), 37–40 |
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1979 |
23. |
E. I. Asinovskii, R. Kh. Amirov, L. M. Vasilyak, V. V. Markovets, “К вопросу об измерении коэффициента диффузии атомарного водорода”, TVT, 17:5 (1979), 912–915 |
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1974 |
24. |
R. Kh. Amirov, S. A. Smolyanskii, L. Sh. Shekhter, “On the theory of quantum kinetic processes in strong alternating fields”, TMF, 21:2 (1974), 247–257 ; Theoret. and Math. Phys., 21:2 (1974), 1116–1124 |
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1973 |
25. |
R. Kh. Amirov, S. A. Smolyanskii, L. Sh. Shekhter, “Derivation of kinetic equations of classical statistical mechanics in the weak-interaction approximation by the nonequilibrium statistical operator method”, TMF, 16:1 (1973), 128–134 ; Theoret. and Math. Phys., 16:1 (1973), 723–728 |
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Organisations |
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