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Solar wind models with Alfven waves (1978)

Jacques, S. A.

Institute of Physics

In: Astrophysical Journal. 1978; 226: 632. Published 1978 Dec 01. doi: 10.1086/156647.

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Publication Date: 1978-12-01

Print ISSN: 0004-637X

Electronic ISSN: 1538-4357

Topics: Physics

Published by Institute of Physics

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Momentum and energy transport by waves in the solar atmosphere and solar wind (1977)

Jacques, S. A.

Institute of Physics

In: Astrophysical Journal. 1977; 215: 942. Published 1977 Aug 01. doi: 10.1086/155430.

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Publication Date: 1977-08-01

Print ISSN: 0004-637X

Electronic ISSN: 1538-4357

Topics: Physics

Published by Institute of Physics

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Momentum and energy transport by waves in the solar atmosphere and solar wind (1977)

Jacques, S. A.

In: Other Sources

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Publication Date: 2019-06-27

Description: The fluid equations for the solar wind are presented in a form which includes the momentum and energy flux of waves in a general and consistent way. The concept of conservation of wave action is introduced and is used to derive expressions for the wave energy density as a function of heliocentric distance. The explicit form of the terms due to waves in both the momentum and energy equations are given for radially propagating acoustic, Alfven, and fast mode waves. The effect of waves as a source of momentum is explored by examining the critical points of the momentum equation for isothermal spherically symmetric flow. We find that the principal effect of waves on the solutions is to bring the critical point closer to the sun's surface and to increase the Mach number at the critical point. When a simple model of dissipation is included for acoustic waves, in some cases there are multiple critical points.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal; vol. 215

Format: text

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Diffusion models for Jupiter's radiation belt (1972)

Jacques, S. A. ; Davis, L., Jr.

In: CASI

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Publication Date: 2019-06-27

Description: Solutions are given for the diffusion of trapped particles in a planetary magnetic field in which the first and second adiabatic invariants are preserved but the third is not, using as boundary conditions a fixed density at the outer boundary (the magnetopause) and a zero density at an inner boundary (the planetary surface). Losses to an orbiting natural satellite are included and an approximate evaluation is made of the effects of the synchrotron radiation on the energy of relativistic electrons. Choosing parameters appropriate to Jupiter, the electrons required to produce the observed synchrotron radiation are explained. If a speculative mechanism in which the diffusion is driven by ionospheric wind is the true explanation of the electrons producing the synchrotron emission it can be concluded that Jupiter's inner magnetosphere is occupied by an energetic proton flux that would be a serious hazard to spacecraft.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA-CR-141967

Format: application/pdf

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Solar wind models with Alfven waves (1978)

Jacques, S. A.

In: Other Sources

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Publication Date: 2019-06-27

Description: Solutions to the one-fluid solar-wind equations that include pressure and heating due to outwardly propagating Alfven waves are presented. The solutions are given for two forms of the heat flux: the classical Spitzer (1962) formula and a 'collisional' heat flux. Both high-speed and low-speed solar-wind streams are considered. A comparison of solutions with and without waves shows that the solutions without waves cannot come close to reproducing observations of total mass and energy flux at 1 AU, while those with waves are capable of bringing nearly all flow variables into reasonable agreement with the observations. The required wave flux is found to be about 100,000 erg/sq cm per sec for the high-speed streams and an order of magnitude less for the low-speed streams. It is concluded that the pressure and heating due to outwardly propagating Alfven waves are important elements of solar-wind dynamics that cannot be neglected and that wave heating is especially important for the protons in high-speed streams.

Keywords: SOLAR PHYSICS

Type: Astrophysical Journal; vol. 226

Format: text

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