Труды сотрудников ИВМ СО РАН

[Текст] : монография / В.Г. Пивоваров, Н.В.Еркаев ; Отв. ред. В.С.Соколов; СО АН СССР. Вычислительный центр (Красноярск). - Новосибирск : Наука. Сибирское отделение, 1978. - 109 с. : ил. - Библиогр.: с.107 . - 0.90 р.
Аннотация: Сформулирована и исследована (аналитически и численно) МГД-модель обтекания солнечным ветром магнитосферы Земли. Книга представляет интерес для специалистов в области космофизики, магнитной газодинамики и в смежных областях.


Доп.точки доступа:
Еркаев, Николай Васильевич; Erkaev N.V.
Экземпляры всего: 1
Фонд (1)
Свободны: Фонд (1)

[Text] : статья / N.V. Erkaev, V.S. Semenov, H.K. Alexeev, H.K. Biernat // Physics of Plasmas. - 2001. - Vol. 8, № 11. - p. 4800-4811DOI 10.1063/1.1410112 . -
Аннотация: The reconnection rate is obtained for the simplest case of two-dimensional (2D) symmetric reconnection in an incompressible plasma. In the short note [Erkaev et al., Phys. Rev. Lett. 84, 1455 (2000)], the reconnection rate is found by matching the outer Petschek solution and the inner diffusion region solution. Here the details of the numerical simulation of the diffusion region are presented and the asymptotic procedure which is used for deriving the reconnection rate is described. The reconnection rate is obtained as a decreasing function of the diffusion region length. For a sufficiently large diffusion region scale, the reconnection rate becomes close to that obtained in the Sweet-Parker solution with the inverse square root dependence on the magnetic Reynolds number Re m , determined for the global size of the current sheet. On the other hand, for a small diffusion region length scale, the reconnection rate turns out to be very similar to that obtained in the Petschek model with a logarithmic dependence on the magnetic Reynolds number Re m . This means that the Petschek regime seems to be possible only in the case of a strongly localized conductivity corresponding to a small scale of the diffusion region. c 2001 American Institute of Physics.

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ИВМ СО РАН : 660036, Красноярск, Академгородок, 50, стр.44

Доп.точки доступа:
Semenov, V.S.; Семенов В.С.; Alexeev, H.K.; Алексеев Г.К.; Biernat, H.K.; Еркаев, Николай Васильевич

[Text] : статья / I.L. Arshukova, N.V. Erkaev, H.K. Biernat // International journal of geomagnetism and aeronomy. - 2002. - Vol. 3, № 1. - p. 27–34
Аннотация: This article deals with the magnetohydrodynamic instability of the high magnetic shear magnetopause, which is considered to be a thin layer with a constant curvature radius and plasma velocity shear. In our model, the magnetic field and plasma density are assumed to be piecewise constant in three regions: in the magnetosphere adjacent to the magnetopause, in the magnetosheath, and inside a thin layer associated with the magnetopause. The plasma parameters and the magnetic field are assumed to obey the ideal incompressible magnetohydrodynamics. A Fourier analysis is used to calculate small perturbations of magnetic field and plasma parameters near the magnetopause in a linear approximation. The instability growth rate is obtained as a function of the angle between the velocity vector and the geomagnetic field direction for different plasma bulk speeds, wave numbers and curvature radii. The resulting instability is a mixture of interchange and Kelvin-Helmholtz instabilities on a surface with a nonzero curvature. The instability growth rate is an increasing function of the tangential velocity component perpendicular to the magnetic field. On the other hand, the growth rate is a decreasing function of the velocity component along the magnetic field.

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ИВМ СО РАН : 660036, Красноярск, Академгородок, 50, стр.44

Доп.точки доступа:
Erkaev, N.V.; Еркаев, Николай Васильевич; Biernat, H.K.; Аршукова И.Л.

[Text] : статья / N.V. Erkaev [et al.] // International journal of geomagnetism and aeronomy. - 2002. - Vol. 3, № 1. - p. 67-76
Аннотация: One aspect of the Io-Jupiter interaction studied by many authors is the generation of Alfv_en waves by Io moving in the magnetized plasma. In our study, we focus on an additional mechanism of the interaction between Io and Jupiter based on MHD slow shocks propagating from Io toward Jupiter along a magnetic ux tube. These MHD slow shocks are produced by plasma ow injected by Io, which is considered as a source of ionized particles. The propagation of the slow shocks is calculated along a given magnetic ux tube from Io to Jupiter. The total pressure is assumed to be a known function of the distance measured along the tube. It is determined as the magnetic pressure corresponding to the undisturbed Jovian magnetic field calculated in a dipole approximation. The material coordinates are used to describe the plasma ow along the magnetic tube. The peculiarity of this problem stems from the fact that the total pressure increases by a factor of 105, whereas the cross section of the magnetic ux tube decreases by a factor of 300. The result is that the plasma velocity after the shock front substantially increases toward Jupiter with increasing magnetic pressure. The electric potential difference along the magnetic field is estimated, which is produced by the accelerated plasma ow propagating with the MHD slow shocks.

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Держатели документа:
ИВМ СО РАН : 660036, Красноярск, Академгородок, 50, стр.44

Доп.точки доступа:
Erkaev, N.V.; Еркаев, Николай Васильевич; Semenov, V.S.; Семенов В. С.; Shaidurov, V.A.; Шайдуров В.А.; Langmayr, D.; Biernat, H.K.; Rucker, H.O.

[Text] : статья / N.V. Erkaev, V.A. Shaidurov, V.S. Semenov, H.K. Biernat // Nonlinear Processes in Geophysics. - 2002. - Vol. 9. - p. 163-172
Аннотация: Variations of the plasma pressure in a magnetic flux tube can produce MHD waves evolving into shocks. In the case of a low plasma beta, plasma pressure pulses in the magnetic flux tube generate MHD slow shocks propagating along the tube. For converging magnetic field lines, such as in a dipole magnetic field, the cross section of the mag-netic flux tube decreases enormously with increasing mag-netic field strength. In such a case, the propagation of MHD waves along magnetic flux tubes is rather different from that in the case of uniform magnetic fields. In this paper, the propagation of MHD slow shocks is studied numerically us-ing the ideal MHD equations in an approximation suitable for a thin magnetic flux tube with a low plasma beta. The results obtained in the numerical study show that the jumps in the plasma parameters at the MHD slow shock increase greatly while the shock is propagating in the narrowing mag-netic flux tube. The results are applied to the case of the interaction between Jupiter and its satellite Io, the latter be-ing considered as a source of plasma pressure pulses.

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ИВМ СО РАН : 660036, Красноярск, Академгородок, 50, стр.44

Доп.точки доступа:
Shaidurov, V.A.; Шайдуров В.А.; Semenov, V.S.; Семенов В. С.; Biernat, H.K.; Еркаев, Николай Васильевич

[Text]. - Electronic data (106 Kb)
. - Режим доступа: http://icm.krasn.ru/refextra.php?id=1472. - Электрон. версия печ. публикации . - Режим доступа: http://library.krasn.ru/trudy/2000/1472erkaev_PHP03413_eng.pdf (Полный текст) : статья / Erkaev N.V., Biernat H.K., Farrugia C.J. - Electronic data (106 Kb) // Physics of Plasmas. - 2000. - Vol. 7, № 7. - p. 3413-3420

ГРНТИ

29.27.45

Аннотация: The plasma flow past a blunt obstacle in an ideal magnetohydrodynamic ~MHD! model is studied, taking into account the tensorial nature of the plasma pressure. Three different closure relations are explored and compared with one another. The first one is the adiabatic model proposed by Chew, Goldberger, and Low. The second closure is based on the mirror instability criterion, while the third depends on an empirical closure equation obtained from observations of solar wind flow past the Earth's magnetosphere. The latter is related with the criterion of the anisotropic ion cyclotron instability. In the presented model, the total pressure, defined as the sum of magnetic pressure and perpendicular plasma pressure, is assumed to be a known function of Cartesian coordinates. The calculation is based on the Newtonian approximation for the total pressure along the obstacle and on a quadratic behavior with distance from the obstacle along the normal direction. Profiles of magnetic field strength and plasma parameters are presented along the stagnation stream line between the shock and obstacle of an ideal plasma flow with anisotropy in thermal pressure and temperature.

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Держатели документа:
ИВМ СО РАН : 660036, Красноярск, Академгородок, 50, стр.44

Доп.точки доступа:
Biernat, H.K.; Farrugia, C.J.; Еркаев, Николай Васильевич

[Текст] : монография / В. Ф. Терентьев, Н. В. Еркаев, С. Г. Докшанин ; отв. ред. И. О. Богульский; Рос. акад. наук, Сиб. отд-ние, Ин-т вычисл. моделирования, М-во образования Рос. Федерации, Краснояр. гос. техн. ун-т. - Новосибирск : Наука, 2003. - 142 с. : ил ; 21 см. - Библиогр.: с. 110-114. - ISBN 5-02-032066-8 :

УДК	621.891^V3

ББК К413.3



Доп.точки доступа:
Еркаев, Николай Васильевич; Erkaev N.V.; Докшанин, С.Г.; Богульский, Игорь Олегович \ред.\ ГПНТБ СО РАН
Свободных экз. нет

[] : библиография / В. В. Денисенко, Н. В. Еркаев, А. В. Китаев, И. Т. Матвеенков ; Отв. ред. В. Г. Пивоваров; Рос. акад. наук, Сиб. отд-ние, Краснояр. науч. центр, ВЦ. - Новосибирск : Наука. Сиб. отд-ние, 1992. - 196 с. : ил ; 22 см. - Библиогр.: с. 186-195. - Библиогр.: с. 186-195 (230 назв.). - 400 экз. - ISBN 5-02-029939-1 : Б.ц. - ISBN 5-02-029939-1 : 22.38 р.ББК Д214.375в641



Доп.точки доступа:
Денисенко, Валерий Васильевич; Denisenko V.V.; Еркаев, Николай Васильевич; Erkaev N.V.; Китаев, Анатолий Валерьевич; Матвеенков, И.Т.; Пивоваров, Владимир Григорьевич \ред.\ 63011034/ГПНТБ СО РАН, 64417093/К
Свободных экз. нет

[] : задания и метод. указ. к расчету курсового проекта по теории мех. колебаний для студентов спец. 071100 / Н. В. Еркаев, В. Ф. Терентьев ; Краснояр. гос. техн. ун-т. - Красноярск : [s. n.], 1997. - 46 с. - 450 р.

УДК	534.014(07)

Доп.точки доступа:
Терентьев, В.Ф.; Erkaev N.V.; Красноярский государственный технический университет 63360098/Библиотека Политехнического Института СФУ
Свободных экз. нет

[] : Задания и метод. указ. к расчету курсовой работы по теории мех. колебаний для студентов спец. 071100 / Н. В. Еркаев, В. Ф. Терентьев. - Красноярск : ИПЦ КГТУ, 1998. - 43 с. - 0

УДК	534.015(07)

Доп.точки доступа:
Терентьев, В.Ф.; Erkaev N.V.; Красноярский государственный технический университет 63360098/Библиотека Политехнического Института СФУ
Свободных экз. нет

[] : метод. указ. к расчету курсовой работы по теории мех. колебаний для студентов спец. 071100-"Динамика и прочность машин" / Н. В. Еркаев, В. Ф. Терентьев ; Краснояр. гос. техн. ун-т. - Красноярск : [б. и.], 2000. - 56 с. : ил. - 0

УДК	534.015.1(07)

Доп.точки доступа:
Терентьев, В.Ф.; Erkaev N.V.; Красноярский государственный технический университет 63360098/Библиотека Политехнического Института СФУ
Свободных экз. нет

[] : задания и метод. указ. по курсовой работе для студентов спец. 071200 "Триботехника" / Н. В. Еркаев, В. Ф. Терентьев ; Краснояр. гос. техн. ун-т. - Красноярск : [б. и.], 2001. - 31 с. : ил. - 2 р.

УДК	621.891(07)

Доп.точки доступа:
Терентьев, В.Ф.; Erkaev N.V.; Красноярский государственный технический университет 63360098/Библиотека Политехнического Института СФУ
Свободных экз. нет

[] = A solar wind flowing over the Earth's magnetosphere : библиография / Отв. ред. М. И. Пудовкин, В. С. Семенов. - М. : Междуведомств. геофиз. ком., 1989. - 130 с. : ил ; 26 см. - (Результаты исследований по международным геофизическим проектам / Междувед. геофиз. ком. при президиуме АН СССР). - Библиогр.: с. 126-128. - 500 экз. - 1.60 р.ББК 22.652.8



Доп.точки доступа:
Пудовкин, М. И. \ред.\; Семенов, В. С. \ред.\; Erkaev N.V. 64417093/К
Свободных экз. нет

[Текст] : статья / В.В. Денисенко, Н.В. Еркаев // Вычислительные технологии. - 2004. - Т.9 (специальный выпуск) . - С. 53-58.


Доп.точки доступа:
Еркаев, Николай Васильевич; Erkaev N.V.; Denisenko V.V.

[Текст] : статья / В. В. Денисенко, Н. В. Еркаев // Вычислительные технологии. - 2009. - Т. 14, № 6. - С. 34-44 . - ISSN 1560-7534

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Держатели документа:
ИВМ СО РАН : 660036, Красноярск, Академгородок, 50, стр.44

Доп.точки доступа:
Еркаев, Николай Васильевич; Erkaev N.V.; Denisenko V.V.

[Текст] : статья / О.И. Рабецкая и др. // Тяжелое машиностроение. - 2010. - №.3. - С. 18-19


Доп.точки доступа:
Райсвих, К.Д.; Шаронов, А.А.; Щелканов, С.И.; Еркаев, Николай Васильевич; Erkaev N.V.

[Текст] : сборник заданий для курсовых работ / Т.А. Валькова и др. // СФУ. - 2008. - С. 45


Доп.точки доступа:
Еркаев, Николай Васильевич; Erkaev N.V.; Терентьев, В.Ф.

[Текст] : статья / Ю.Л. Сасунов и др. // Вестник СПбГУ. Серия 4. Физика. Химия. - 2011. - №.2. - С. 88-95


Доп.точки доступа:
Семенов, В. С.; Еркаев, Николай Васильевич; Erkaev N.V.; Хейн, М.Ф.; Бирнат, Х.К.

[Text] : статья / N.V. Erkaev, V.S. Semenov, H.K. Biernat // Nonlinear Processes in Geophysics. - 2002. - Vol. 9, № 2. - p. 131–138 . - ISSN 1023-5809
Аннотация: Magnetic reconnection is an important process providing a fast conversion of magnetic energy into thermal and kinetic plasma energy. In this concern, a key problem is that of the resistive diffusion region where the reconnec-tion process is initiated. In this paper, the diffusion region is associated with a nonuniform conductivity localized to a small region. The nonsteady resistive incompressible MHD equations are solved numerically for the case of symmetric reconnection of antiparallel magnetic fields. A Petschek type steady-state solution is obtained as a result of time relax-ation of the reconnection layer structure from an arbitrary initial stage. The structure of the diffusion region is studied for various ratios of maximum and minimum values of the plasma resistivity. The effective length of the diffusion re-gion and the reconnection rate are determined as functions of the length scale and the maximum of the resistivity. For suf-ficiently small length scale of the resistivity, the reconnection rate is shown to be consistent with Petschek's formula. By increasing the resistivity length scale and decreasing the re-sistivity maximum, the reconnection layer tends to be wider, and correspondingly, the reconnection rate tends to be more consistent with that of the Parker-Sweet regime.

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Держатели документа:
ИВМ СО РАН : 660036, Красноярск, Академгородок, 50, стр.44

Доп.точки доступа:
Semenov, V.S.; Семенов В. С.; Biernat, H.K.; Еркаев, Николай Васильевич

/ C. J. Farrugia [et al.] // J. Atmos. Sol.-Terr. Phys. - 2013. - Vol. 99. - P14-26, DOI 10.1016/j.jastp.2012.11.014. - Cited References: 53. - C.J.F. is supported by NASA Grant NNX10AQ29G and NSF Grant AGS-1140211. N.V.E. acknowledges support from Austrian Science Fund Project I193-N16 and RFBR Grant no 12-05-00152-a. N.L. acknowledges support from NSF Grant AGS-1140211. Work at LANL was conducted under the auspices of the U.S. Department of Energy with partial support from NASA and NSF. . - 13. - ISSN 1364-6826РУБ Geochemistry & Geophysics + Meteorology & Atmospheric Sciences

Аннотация: The interaction of interplanetary coronal mass ejections (ICMEs) and magnetic clouds (MCs) with the Earth's magnetosphere exhibits various interesting features principally due to interplanetary parameters which change slowly and reach extreme values of long duration. These, in turn, allow us to explore the geomagnetic response to continued and extreme driving of the magnetosphere. In this paper we shall discuss elements of the following: (i) anomalous features of the flow in the terrestrial magnetosheath during ICME/MC passage and (ii) large geomagnetic disturbances when total or partial mergers of ICMEs/MCs pass Earth. In (i) we emphasize two roles played by the upstream Alfven Mach number in solar wind-magnetosphere interactions: (i) It gives rise to wide plasma depletion layers. (ii) It enhances the magnetosheath flow speed on draped magnetic field lines. (By plasma depletion layer we mean a magnetosheath region adjacent to the magnetopause where magnetic forces dominate over hydrodynamic forces.) In (ii) we stress that the ICME mergers elicit geoeffects over and above those of the individual members. In addition, features of the non-linear behavior of the magnetosphere manifest themselves. (C) 2012 Elsevier Ltd. All rights reserved.


Доп.точки доступа:
Farrugia, C.J.; Erkaev, N.V.; Еркаев, Николай Васильевич; Jordanova, V.K.; Lugaz, N.; Sandholt, P.E.; Muhlbachler, S.; Torbert, R.B.