Geodesic
Atmospheric vortex excited by a gasdynamic instability
Vestnik Moskovskogo universiteta. Matematika, mehanika, no. 6 (2022), pp. 38-45 
V. Ya. Shkadov; A. N. Beloglazkin. Atmospheric vortex excited by a gasdynamic instability. Vestnik Moskovskogo universiteta. Matematika, mehanika, no. 6 (2022), pp. 38-45. http://geodesic.mathdoc.fr/item/VMUMM_2022_6_a5/
@article{VMUMM_2022_6_a5,
     author = {V. Ya. Shkadov and A. N. Beloglazkin},
     title = {Atmospheric vortex excited by a gasdynamic instability},
     journal = {Vestnik Moskovskogo universiteta. Matematika, mehanika},
     pages = {38--45},
     year = {2022},
     number = {6},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/VMUMM_2022_6_a5/}
}
TY  - JOUR
AU  - V. Ya. Shkadov
AU  - A. N. Beloglazkin
TI  - Atmospheric vortex excited by a gasdynamic instability
JO  - Vestnik Moskovskogo universiteta. Matematika, mehanika
PY  - 2022
SP  - 38
EP  - 45
IS  - 6
UR  - http://geodesic.mathdoc.fr/item/VMUMM_2022_6_a5/
LA  - ru
ID  - VMUMM_2022_6_a5
ER  - 
%0 Journal Article
%A V. Ya. Shkadov
%A A. N. Beloglazkin
%T Atmospheric vortex excited by a gasdynamic instability
%J Vestnik Moskovskogo universiteta. Matematika, mehanika
%D 2022
%P 38-45
%N 6
%U http://geodesic.mathdoc.fr/item/VMUMM_2022_6_a5/
%G ru
%F VMUMM_2022_6_a5

Voir la notice de l'article provenant de la source Math-Net.Ru

The temperature conditions under which the emergence and self-development of vortex motion in the real atmosphere are possible.

[1] Khain A. P., Matematicheskoe modelirovanie tropicheskikh tsiklonov, Gidrometeoizdat, L., 1984 | MR

[2] Varaksin A. Yu., “Vozdushnye tornadopodobnye vikhri: Matematicheskoe modelirovanie”, Teplofiz. vysokikh temperatur, 55:2 (2017), 291–316

[3] Arsenev S. A., Nikolaevskii V. N., Shelkovnikov N. K., “Vikhrevaya neustoichivost i obrazovanie smerchei i tornado”, Vestn. Mosk. un-ta. Fizika. Astronomiya, 2000, no. 1, 50–53

[4] Burtsev S. A., Leontev A. I., “Issledovanie vliyaniya dissipativnykh effektov na temperaturnuyu stratifikatsiyu v potokakh gaza (obzor)”, Teplofiz. vysokikh temperatur, 52:2 (2014), 310–322

[5] Slezkin N. A., “Gidrodinamicheskie modeli taifuna, vikhrevogo otsosa vody s poverkhnosti okeana i vikhrevogo vozmuscheniya tsunami”, Izv. AN SSSR. Fiz. atmosfery i okeana, 23:12 (1987), 1285–1296

[6] Yakimov Yu. L., “Smerch i osoboe predelnoe reshenie uravnenii Nave–Stoksa”, Izv. AN SSSR. Mekhan. zhidkosti i gaza, 1988, no. 6, 23–33

[7] Bautin S. P., Krutova I. Yu., Obukhov A. G., “Problema predskazaniya i unichtozheniya smercha”, Tekhnol. grazhdan. bezopasnosti, 13:1 (2016), 70–75

[8] Shkadov V. Ya., “Nekotorye metody i zadachi teorii gidrodinamicheskoi ustoichivosti”, Nauch. tr. In-ta mekhaniki MGU, 1973, no. 25