Geodesic
Cosmic Gasdynamic Studies at the Chair of Aeromechanics and Gas Dynamics
Vestnik Moskovskogo universiteta. Matematika, mehanika, no. 6 (2024), pp. 113-123
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Problems connected with cosmic gasdynamic studies at the Chair of Aeromechanics and Gasdynamics of Moscow State University are discussed. We give main directions and methods of the space studies at our Chair. Results of the developed theoretical models describing and predicting physical phenomena in space are presented in details. The models include the interaction of the solar wind with the local interstellar medium and comet atmospheres, motions of the interstellar medium under non-equilibrium ionization. 
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K. V. Krasnobaev; V. V. Izmodenov. Cosmic Gasdynamic Studies at the Chair of Aeromechanics and Gas Dynamics. Vestnik Moskovskogo universiteta. Matematika, mehanika, no. 6 (2024), pp. 113-123. http://geodesic.mathdoc.fr/item/VMUMM_2024_6_a13/

[1] S.B. Pikelner (red.), Problemy kosmicheskoi aerodinamiki, Sb. dokl., prochitannykh na Mezhdunar. soveschanii po dvizheniyu gazovykh mass kosmicheskikh razmerov (Parizh, 1949), IL, M., 1953

[2] Baranov V.B., Krasnobaev K.V., Kulikovskii A.G., “O modeli vzaimodeistviya solnechnogo vetra s mezhzvezdnoi sredoi”, Dokl. AN SSSR, 94 (1970), 41–44

[3] Baranov V.B., “Gazodinamicheskaya struktura geliosfery. Teoriya i eksperiment”, Izv. RAN. Mekhan. zhidkosti i gaza, 1993, no. 3, 3–24 | Zbl

[4] Baranov V.B., Malama Yu.G., “Model of the solar wind interaction with the local interstellar medium: Numerical solution of self-consistent problem”, J. Geophys. Res., 98 (1993), 15157–15163 | DOI

[5] Linsky J.L., Wood B.E., “The $\alpha$ Centauri line of sight: D/H ratio, physical properties of local interstellar gas, and measurement of heated hydrogen (the hydrogen wall) near the heliopause”, Astrophys. J., 463 (1996), 254–270 | DOI

[6] Izmodenov V.V., Lallement R., Malama Y.G., “Heliospheric and it astrospheric hydrogen absorption towards Sirius: no need for interstellar hot gas”, Astron. and Astrophys., 342 (1999), L13–L16 | DOI

[7] Wood B.E., Izmodenov V.V., Alexashov D.B., Redfield S., Edelman E., “A new detection of LY$\alpha$ absorption from the Heliotail”, Astrophys. J., 780 (2014), 108 | DOI

[8] McComas D.J., Bzowski M., Fuselier S.A., Frisch P.C., Galli A., Izmodenov V.V., “et al. Local interstellar medium: six years of direct sampling by IBEX”, Astrophys. J. Suppl. Ser., 220 (2015), 22 | DOI

[9] Baliukin I.I., Izmodenov V.V., Möbius E., Alexashov D.B., Katushkina O.A., Kucharek H., “Secondary interstellar oxygen in the heliosphere: numerical modeling and comparison with IBEX-Lo data”, Astrophys. J., 850 (2017), 119 | DOI

[10] Baranov V.B., Izmodenov V.V., “Modelnye predstavleniya o vzaimodeistvii solnechnogo vetra so sverkhzvukovym potokom mezhzvezdnoi sredy. Predskazanie i interpretatsiya eksperimentalnykh dannykh”, Izv. RAN. Mekhan. zhidkosti i gaza, 2006, no. 5, 19–40 | Zbl

[11] Izmodenov V.V., Gruntman M., Malama Y.G., “Interstellar hydrogen atom distribution function in the outer heliosphere”, J. Geophys. Res., 106 (2001), 10681–10690 | DOI

[12] Korolkov S.D., Izmodenov V.V., “The global structure of astrospheres: effect of Knudsen number”, Publ. Astron. Soc. Austral., 41 (2024), e074 | DOI

[13] Izmodenov V., Alexashov D., Myasnikov A., “Direction of the interstellar H atom inflow in the heliosphere: Role of the interstellar magnetic field”, Astron. Astrophys., 437 (2005), L35–L38 | DOI

[14] Izmodenov V.V., “Local interstellar parameters as they are inferred from analysis of observations inside the heliosphere”, Space Sci. Rev., 143 (2009), 139–150 | DOI

[15] Izmodenov V.V., Alexashov D.B., “Global structure of the heliosphere: 3D kinetic-MHD model and the interpretation of spacecraft data”, Astrophys. J. Suppl. Ser., 220 (2015), 32 | DOI

[16] Korolkov S., Izmodenov V., “New unexpected flow patterns in the problem of the stellar wind interaction with the interstellar medium: stationary ideal-MHD solutions”, Month. Notic. Roy. Astron. Soc., 504 (2021), 4589–4598 | DOI

[17] Korolkov S.D., Izmodenov V.V., “Interaction of the supersonic stellar wind with free stream of the interstellar medium: the effect of the azimuthal magnetic field of the star”, Fluid Dyn., 58 (2023), 9–18 | DOI | MR | Zbl

[18] Izmodenov V., Malama Y., Ruderman M.S., “Solar cycle influence on the interaction of the solar wind with Local Interstellar Cloud”, Astron. Astrophys., 429 (2005), 1069–1080 | DOI | Zbl

[19] Izmodenov V.V., Malama Y.G., Ruderman M.S., “Modeling of the outer heliosphere with the realistic solar cycle”, Adv. Space Res., 41 (2008), 318–324 | DOI

[20] Korolkov S.D., Izmodenov V.V., “Shock-wave heating mechanism of the distant solar wind: Explanation of Voyager-2 data”, Astron. and Astrophys., 667 (2022), L5 | DOI

[21] Izmodenov V.V., Alexashov D.B., Ruderman M.S., “Electron thermal conduction as a possible physical mechanism to make the inner heliosheath thinner”, Astrophys. J., 795 (2014), L7 | DOI

[22] Izmodenov V.V., Alexashov D.B., “The strong effect of electron thermal conduction on the global structure of the heliosphere”, Month. Notic. Roy. Astron. Soc., 521 (2023), 4085–4090 | DOI

[23] Malama Y.G., Izmodenov V.V., Chalov S.V., “Modeling of the heliospheric interface: multi-component nature of the heliospheric plasma”, Astron. and Astrophys., 445 (2006), 693–701 | DOI

[24] Chalov S.V., Malama Y.G., Alexashov D.B., Izmodenov V.V., “Acceleration of interstellar pickup protons at the heliospheric termination shock: Voyager 1/2 energetic proton fluxes in the inner heliosheath”, Month. Notic. Roy. Astron. Soc., 455 (2016), 431–437 | DOI

[25] Mishchenko A.V., Godenko E.A., Izmodenov V.V., “Lagrangian fluid approach for the modelling of peculiarities of the interstellar dust distribution in the astrospheres/heliosphere”, Month. Notic. Roy. Astron. Soc., 491 (2020), 2808–2821 | DOI

[26] Godenko E.A., Izmodenov V.V., “Comparison of the Eulerian and Lagrangian approaches to studying the peculiarities of the interstellar dust distribution in the heliosphere in the framework of the cold gas model”, Fluid Dyn., 58 (2023), 274–286 | DOI | MR | Zbl

[27] Godenko E.A., Izmodenov V.V., “Peculiarities of the interstellar dust distribution in the heliosphere induced by the time-dependent magnetic field”, Fluid Dyn., 59:3 (2024), 521–532 | DOI | MR

[28] Godenko E.A., Izmodenov V.V., “Effects of dispersion of the dust velocity in the LISM on the interstellar dust distribution inside the heliosphere”, Astron. Lett., 47 (2021), 50–60 | DOI

[29] Alexashov D.B., Katushkina O.A., Izmodenov V.V., Akaev P.S., “Interstellar dust distribution outside the heliopause: deflection at the heliospheric interface”, Month. Notic. Roy. Astron. Soc., 458 (2016), 2553–2564 | DOI

[30] Godenko E.A., Izmodenov V.V., “Modelling of the interstellar dust distribution under the influence of the interstellar magnetic field”, J. Phys.: Conf. Ser., 2028 (2021), 012014 | DOI

[31] Godenko E.A., Izmodenov V.V., “The unexpected role of heliospheric boundaries in facilitating interstellar dust penetration at 1-5 AU”, Astron. and Astrophys., 687 (2024), L4 | DOI

[32] Godenko E.A., Izmodenov V.V., “Dynamical charging of interstellar dust particles in the heliosphere”, Adv. Space Res., 72 (2023), 5142–5158 | DOI

[33] Osiptsov A.N., “Development of the full Lagrangian approach for modeling dilute dispersed media flows (a review)”, Fluid Dyn., 59 (2024), 1–48 | DOI | MR | Zbl

[34] Katushkina O.A., Alexashov D.B., Izmodenov V.V., Gvaramadze V.V., “Non-monotonic spatial distribution of the interstellar dust in astrospheres: finite gyroradius effect”, Month. Notic. Roy. Astron. Soc., 465 (2017), 1573–1585 | DOI

[35] Katushkina O.A., Izmodenov V.V., “Infrared dust arcs around stars - I. Effect of the radiation pressure”, Month. Notic. Roy. Astron. Soc., 486 (2019), 4947–4961 | DOI

[36] Katushkina O.A., Alexashov D.B., Gvaramadze V.V., Izmodenov V.V., “An astrosphere around the blue supergiant $/kappa$ Cas: possible explanation of its filamentary structure”, Month. Notic. Roy. Astron. Soc., 473 (2018), 1576–1588 | DOI

[37] Krasnobaev K.V., “Staticheskaya zona N II dlya Solntsa”, Astron. zhurn., 47:5 (1970), 1047–1052

[38] Deharveng L., Schuller F., Anderson L.D. et al., “A gallery of bubbles. The nature of the bubbles observed by Spitzer and what ATLASGAL tells us about the surrounding neutral material”, Astron. and Astrophys., 523 (2010), 1–35 | DOI

[39] Kotova G.Yu., Krasnobaev K.V., “Chislennoe modelirovanie neustoichivykh dvumernykh dvizhenii okolozvezdnoi obolochki”, Pisma v Astron. zhurn., 36:7 (2010), 506–516

[40] Krasnobaev K.V., Tagirova R.R., “Isentropic thermal instability in atomic surface layers of photodissociation regions”, Month. Notic. Roy. Astron. Soc., 469 (2017), 1403–1413 | DOI

[41] Krasnobaev K.V., Kotova G.Yu., Tagirova R.R., “Dvumernye neustanovivshiesya dvizheniya fotoisparyaemykh gazovykh obolochek”, Problemy covpemennoi mekhaniki, ed. A.A. Barmin, Izd-vo MGU; Izd-vo “Omega-L”, M., 2008, 190–206

[42] Fedchenko A.S., Krasnobaev K.V., “Analysis of the approximate solutions of HII region expansion problem”, IOP Conf. Series: J. Physics: Conf. Ser., 1129 (2018), 012012 | DOI

[43] Krasnobaev K.V., Tarev V.Yu., “Kvaziizentropicheskie nelineinye volny v gaze s teplovoi neustoichivostyu”, Astron. zhurn., 64:6 (1987), 1210–1219 | Zbl

[44] Krasnobaev K.V., “Ostsilliruyuschii rezhim rasprostraneniya ionizatsionno-udarnogo fronta”, Pisma v Astron. zhurn., 27:2 (2001), 112–116

[45] Krasnobaev K.V., “Neustoichivost tonkoi fotoisparyaemoi okolozvezdnoi obolochki”, Pisma v Astron. zhurn., 30:7 (2004), 500–505

[46] Krasnobaev K.V., Tagirova R.R., Kotova G.Y., “Model of the expansion of HII region RCW 82”, Astrophys. J., 786 (2014), 90, 6 pp. | DOI

[47] Krasnobaev K.V., Tagirova R.R., Arafailov S.I., Kotova G.Yu., “Evolyutsiya i nasyschenie avtovoln v oblastyakh fotodissotsiatsii”, Pisma v Astron. zhurn., 42:7 (2016), 510–524 | DOI

[48] Krasnobaev K.V., Tagirova R.R., “Vliyanie magnitnogo polya na volnovye dvizheniya v termicheski neustoichivykh oblastyakh fotodissotsiatsii”, Pisma v Astron. zhurn., 45:3 (2019), 192–200 | DOI

[49] Krasnobaev K.V., Sysoev N.E., “O volnovykh dvizheniyakh i spektre turbulentnosti v oblastyakh HII”, Pisma v Astron. zhurn., 17:10 (1991), 932–937

[50] Petrov G.I., Stulov V.P., “Dvizhenie bolshikh tel v atmosferakh planet”, Kosmich. issled., 13:4 (1975), 587–594

[51] Kutsaev A.S., “Dvizhenie v atmosfere gazovykh tel maloi plotnosti”, Izv. AN SSSR. Mekhan. zhidkosti, gaza i plazmy, 1978, no. 2, 89–93

[52] Krasnobaev K.V., Kotova G.Yu., Tagirova R.R., “Dvumernye vozmuscheniya uskorennogo dvizheniya neodnorodnykh gazovykh sloev i obolochek v mezhzvezdnoi srede”, Pisma v Astron. zhurn., 41:3–4 (2015), 123–132 | DOI

[53] Kotova G.Yu., Krasnobaev K.V., “Interaction of an accelerating layer with a cloud: formation of tails and cumulative jets”, Month. Notic. Roy. Astron. Soc., 492 (2020), 2229–2235 | DOI

[54] Kotova G.Yu., Krasnobaev K.V., “Hydrodynamic instabilities in the models of the formation of young stellar objects”, Fluid Dyn., 57, Suppl. 1 (2022), S26–S34 | DOI | MR | Zbl

[55] Baranov V.B., Krasnobaev K.V., Gidrodinamicheskaya teoriya kosmicheskoi plazmy, Nauka, Fizmatgiz, M, 1977

[56] Vergazov M.A., Krasnobaev K.V., “Osesimmetrichnoe istechenie reagiruyuschego gaza iz yadra komety”, Pisma v Astron. zhurn., 11:7 (1985), 555–560

[57] Krasnobaev K.V., Syunyaev R.A., “Raschet obtekaniya rentgenovskogo istochnika zvezdnym vetrom”, Izv. AN SSSR. Mekhan. zhidkosti i gaza, 1983, no. 4, 106–111 | Zbl

[58] Baranov V.B., Lebedev M.G., “Samosoglasovannaya gazodinamicheskaya model obtekaniya ionosfery komety solnechnym vetrom s uchetom “nagruzheniya””, Pisma v Astron. zhurn., 12:7 (1986), 551–554

[59] Baranov V.B., Lebedev M.G., “The interaction between the solar wind and the comet Phalley atmosphere: observations versus theoretical predictions”, Astron. and Astrophys., 273 (1993), 695–706

[60] Baranov V.B., “Gas dynamics of solar wind interaction with cometary atmospheres”, Astrophys. and Space Phys. (Harwood Academic Publishers), 9:3 (1995), 1–64

[61] Alexashov D.B., Baranov V.B., Ruderman M.S., “On the stability of tangential discontinuity in the interaction of solar wind and cometary atmospheres”, Month. Notic. Roy. Astron. Soc., 513 (2022), 223–231 | DOI | MR