Zhekamukhov M.K., Karov B.G., Kumykov T.S., “Elektrizatsiya i prostranstvennoe razdelenie zaryadov pri vydelenii puzyrkov vozdukha v protsesse koagulyatsionnogo rosta gradin v oblake. I. Kinetika protsessa vydeleniya puzyrkov pri povyshenii temperatury pereokhlazhdennykh oblachnykh kapel”, Meteorologiya i gidrologiya, 2008, № 11, 44–52
T. S. Kumykov, R. I. Parovik, “Simulation of the electrification of hailstones in thunderstorms of temperate latitudes, taking into account the fractal properties of the cloud environment”, Mat. Model., 36:6 (2024), 170–178
2022
2.
T. S. Kumykov, “Modeling of the formation of warm thunderstorms taking into account the fractality of the cloud environment”, Mat. Model., 34:12 (2022), 91–102; Math. Models Comput. Simul., 15:4 (2023), 601–607
3.
T. S. Kumykov, “Modeling the growth of flat snow crystals in clouds with fractal structure”, Vestnik KRAUNC. Fiz.-Mat. Nauki, 39:2 (2022), 80–90
2021
4.
T. S. Kumykov, “Fractal structure effect on electric field within thunderclouds”, Vestnik KRAUNC. Fiz.-Mat. Nauki, 37:4 (2021), 84–91
2020
5.
T. S. Kumykov, “Modeling of electrodynamic processes in self-organization of fractal-convective cloud structures”, Vestnik KRAUNC. Fiz.-Mat. Nauki, 33:4 (2020), 63–70
2019
6.
T. S. Kumykov, “Sublimation growth of ice particles in fractality clouds”, Applied Mathematics & Physics, 51:3 (2019), 435–443
2018
7.
T. S. Kumykov, “Mathematical Modeling of Evolution of Cloud Drops Taking into Account the Influence of the Fractal Structure of Clouds”, Itogi Nauki i Tekhniki. Sovrem. Mat. Pril. Temat. Obz., 154 (2018), 62–71; J. Math. Sci. (N. Y.), 253:4 (2021), 520–529
T. S. Kumykov, “The cloud droplets evolution in view of the impact of fractal environment: mathematical modeling”, Vestnik KRAUNC. Fiz.-Mat. Nauki, 2018, no. 4(24), 97–108
2017
9.
T. S. Kumykov, “Modeling of droplets’ electrodynamic coagulation in fractal media”, News of the Kabardin-Balkar scientific center of RAS, 2017, no. 1, 19–23
10.
T. S. Kumykov, “Mathematical modelling of the formation of a difference in the potentials during crystallization of cloud droplets in view of fractal media”, Vestnik YuUrGU. Ser. Mat. Model. Progr., 10:3 (2017), 16–24
2016
11.
T. S. Kumykov, “The dynamic of the charge cloud drops in fractal environment”, Mat. Model., 28:12 (2016), 56–62
T. S. Kumykov, “Modeling the occurrence of fractal structures “bubstons” in the atmosphere”, Applied Mathematics & Physics, 44:20 (2016), 149–154
2015
13.
T. S. Kumykov, “Modeling the dynamics of bubbles’ charge
in the fractal cloud droplets”, News of the Kabardin-Balkar scientific center of RAS, 2015, no. 6-1, 23–27
T. S. Kumykov, R. I. Parovik, “Mathematical modeling of changes in the charge cloud droplets in a fractal environment”, Vestnik KRAUNC. Fiz.-Mat. Nauki, 2015, no. 1(10), 12–17; Bulletin KRASEC. Phys. & Math. Sci., 10:1 (2015), 11–15
M. K. Zhekamuhov, B. G. Karov, T. S. Kumykov, “About dielectric permeable property of electrolyte solutions alternating electric field”, News of the Kabardin-Balkar scientific center of RAS, 2009, no. 2, 154–161
2008
16.
M. K. Zhekamuhov, B. G. Karov, T. S. Kumykov, “To the problem of thunder electric formation. I. Bubble ooze processes during freezing of the overcooled cloud drops on the surface
of ice particles”, News of the Kabardin-Balkar scientific center of RAS, 2008, no. 6, 149–154
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