@article{VSGU_2010_4_a13,
author = {V. Makaryan},
title = {Generation and interaction of autopulses in vibrationally-excited gas with power source},
journal = {Vestnik Samarskogo universiteta. Estestvennonau\v{c}na\^a seri\^a},
pages = {109--116},
year = {2010},
number = {4},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/VSGU_2010_4_a13/}
}
TY - JOUR AU - V. Makaryan TI - Generation and interaction of autopulses in vibrationally-excited gas with power source JO - Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ PY - 2010 SP - 109 EP - 116 IS - 4 UR - http://geodesic.mathdoc.fr/item/VSGU_2010_4_a13/ LA - ru ID - VSGU_2010_4_a13 ER -
V. Makaryan. Generation and interaction of autopulses in vibrationally-excited gas with power source. Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ, no. 4 (2010), pp. 109-116. http://geodesic.mathdoc.fr/item/VSGU_2010_4_a13/
[1] A. I. Klimov i dr., “Rasprostranenie udarnykh voln v nestatsionarnom tleyuschem razryade”, Pisma ZhTF, 15:20 (1989), 31–36
[2] Basargin I. V., Mishin G. I., “Predvestnik udarnoi volny v plazme tleyuschego razryada”, Pisma ZhTF, 15:8 (1989), 55–60
[3] Bystrov S. A., Ivanov V. I., Shugaev F. V., “Rasprostranenie ploskoi udarnoi volny v slaboionizovannoi plazme”, Fizika plazmy, 15:5 (1989), 558–562
[4] Gridin A. Yu., Klimov A. I., Molevich N. E., “Rasprostranenie udarnykh voln v plazme tleyuschego razryada”, ZhTF, 63:3 (1993), 157–162
[5] Gridin A. Yu., Klimov A. I., “Struktura udarnoi volny v neravnovesnoi plazme (vydelenie energii, zapasennoi v razryadnoi plazme za udarnoi volnoi)”, Khim. fizika, 12:3 (1993), 363–365
[6] Ganguly B. N., Bletzinger P., Garscadden A., “Shock wave damping and dispersion in nonequilibrium low pressure argon plasmas”, Phys. Lett. A, 230:3 (1997), 218–222 | DOI
[7] S. O. Macheret et al., “Shock wave propagation and dispersion in glow discharge plasmas”, Phys. Fluids, 13 (2001), 2693–2705 | DOI
[8] Klimov A. I., Bityurin V., Serov Yu., “Nonthermal approach in plasma aerodynamics”, AIAA Paper, 2001, 0348
[9] Molevich N. E., Klimov A. I., Makaryan V. G., “Influence of thermodynamical non-equilibrium on acoustical properties of gases”, Intern. J. Aeroacoustics, 4:3–4 (2005), 345–355
[10] P. Bletzinger et al., “Plasmas in high speed aerodynamics”, J. Phys. D: Appl. Phys., 38:4 (2005), R33–R57 | DOI
[11] Makaryan V. G., Molevich N. E., “Struktura gazodinamicheskogo vozmuscheniya v termodinamicheski neravnovesnoi srede s eksponentsialnoi modelyu relaksatsii”, Izv. RAN. MZhG, 2004, no. 5, 181–191 | Zbl
[12] Makaryan V. G., Molevich N. E., “Novye statsionarnye struktury v akusticheski aktivnoi srede”, Pisma ZhTF, 29:18 (2003), 11–15
[13] Makaryan V. G., Molevich N. E., “Slabye udarnye volny v neravnovesnykh sredakh s otritsatelnoi dispersiei”, ZhTF, 75:6 (2005), 13–18
[14] Makaryan V. G., Molevich N. E., Porfirev D. P., “Klassifikatsiya gazodinamicheskikh struktur, opisyvaemykh nelineinym uravneniem akustiki relaksiruyuschei sredy”, Vestnik SamGU, 2009, no. 6, 92–104
[15] Molevich N. E., “Nelineinye uravneniya v teorii sred s otritsatelnoi vtoroi vyazkostyu”, Sibirskii fiziko-tekhnicheskii zhurnal, 1991, no. 1, 133–136
[16] Landau L. D., Lifshits E. M., Gidrodinamika, Nauka, M., 1986, 736 pp. | MR
[17] Zeldovich Ya. B., Raizer Yu. P., Fizika udarnykh voln i vysokotemperaturnykh gidrodinamicheskikh yavlenii, Fizmatgiz, M., 1963, 632 pp.
[18] Anderson Dzh., Gazodinamicheskie lazery: vvedenie, Mir, M., 1979, 249 pp.
[19] B. F. Gordiets i dr., “Kolebatelnaya relaksatsiya v gazakh i molekulyarnye lazery”, UFN, 108:4 (1972), 655–699 | DOI
[20] Makaryan V. G., Struktura gazodinamicheskikh vozmuschenii v statsionarno neravnovesnoi srede s eksponentsialnoi modelyu relaksatsii, dis. $\dots$ kand. fiz.-mat. nauk, Samara, 2006
[21] Samarskii A. A., Vvedenie v chislennye metody, Nauka, M., 1982, 272 pp. | MR