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1

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Effects of electrostatic instabilities on planetary and interstellar ions in the solar wind. (1973)

Wu, C. S. ; Hartle, R. E.

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Publication Date: 2019-06-27

Description: It is shown that newly born ions in the solar wind result in unstable electrostatic waves propagating parallel and perpendicular to the interplanetary magnetic field. A description of the longitudinal instability is followed by a discussion of its implications for assimilating newly born ions of interstellar and planetary origin into comotion with the solar wind bulk velocity. The transverse electrostatic instability is then considered and it is shown that its growth rate is of the same order as that for transverse electromagnetic instabilities found by Wu and Davidson (1972).

Keywords: SPACE RADIATION

Type: Journal of Geophysical Research; 78; Sept. 1

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2

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Electromagnetic instabilities produced by neutral-particle ionization in interplanetary space. (1972)

Wu, C. S. ; Davidson, R. C.

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Publication Date: 2019-06-27

Keywords: SPACE RADIATION

Type: Journal of Geophysical Research; 77; Oct. 1

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3

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Theory of discrete wave packets in the solar wind. (1972)

Wu, C. S.

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Publication Date: 2019-06-27

Description: Discrete wave packets were observed by Ogo 5 and earlier satellites. These waves were believed to be in the whistler mode. Since their group velocities were found to be smaller than the solar-wind speed, these waves could not have been generated in the bow shock and could not have propagated upstream later. The present theory discusses a mechanism similar to that of the echo phenomenon in plasma physics discovered in recent years. The present theory enables us to explain (a) why the wave packets were associated with the bow shock, (b) why the wave packets were characterized by coherent oscillations, and (c) why the wave packets had group velocities smaller than the solar wind and yet could still occur in the solar wind. In short, our theory is able to interpret all the essential features deduced from the observational data.

Keywords: SPACE RADIATION

Type: Journal of Geophysical Research; 77; Feb. 1

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4

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Dissipation mechanisms in a pair of solar-wind discontinuities. (1972)

Unti, T. W. J. ; Atkinson, G. ; Neugebauer, M. ; [et al.]

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Publication Date: 2019-06-27

Description: A pair of sharp closely spaced discontinuities in the solar wind was recorded by the high time resolution instruments aboard Ogo 5 on Mar. 14, 1968. There is plasma turbulence within the double structure, and there appear to be small-amplitude hydromagnetic waves radiating from the discontinuities. The generation of the plasma turbulence is discussed in terms of magnetic drift waves. Although it seems probable that the surfaces are tangential discontinuities, arguments are also advanced that the double structure may represent the Petschek mechanism in which rapid field-line merging occurs between standing waves.

Keywords: SPACE RADIATION

Type: NSSDC-ID-68-014A-14-OM , NSSDC-ID-68-014A-16-PM , NSSDC-ID-68-014A-17-PM , Journal of Geophysical Research; 77; May 1

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5

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Neutral and ion-exospheres in the solar wind with applications to Mercury (1973)

Hartle, R. E. ; Ogilvie, K. W. ; Wu, C. S.

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Publication Date: 2019-06-27

Description: Construction of a model neutral and ion exosphere for a planet weakly interacting with the solar wind. The model is constructed in general terms and is then specialized to possible neutral and ion exospheres for the planet Mercury. The neutral exosphere model allows for density and temperature variations and for rotation at the exobase. The ion exosphere is produced by ionization of the neutral exosphere in the solar wind, and its density distribution is obtained by solving the continuity equation in the drift approximation. Applying to Mercury a surface temperature distribution inferred from infrared data and a vanishing bound neutral flux at the base, He and He(+) density distributions are found. When the He atmosphere of Mercury is due entirely to the surface bombardment by solar wind He(2+), the resulting He(+) density is found to vary from 0.15 to 0.001 per cu cm over the range from 1.5 to 5 planetocentric radii on the dayside. These densities are found to be detectable by typical solar-wind plasma instruments.

Keywords: SPACE RADIATION

Type: Planetary and Space Science; 21; Dec. 197

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6

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Shock system of February 2, 1969 (1973)

Unti, T. ; Neugebauer, M. ; Wu, C.-S.

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Publication Date: 2019-06-27

Description: The shock system observed in the solar wind by Pioneer 9 and Ogo 5 on Feb. 2, 1969, consisted of the following major discontinuities: a forward slow shock; a forward fast shock; a tangential discontinuity at which the density dropped sharply and the flow direction changed; a tangential discontinuity at which the magnetic field strength jumped to an unusually high value; two closely spaced tangential discontinuities that bracketed a region of even greater field strength and that fronted a region of very cool, very dense, helium-enriched plasma; a reverse fast shock of low Mach number; and a second reverse fast shock of very low Mach number. The event had aspects of both corotating and flare-induced shock systems; it is suggested that the source of the disturbances was a flare occurring at or near an M region.

Keywords: SPACE RADIATION

Type: NSSDC-ID-68-014A-14-OM , NSSDC-ID-68-014A-16-OM , NSSDC-ID-68-014A-17-PM , Journal of Geophysical Research; 78; Nov. 1

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7

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Interaction of singly charged interstellar helium ions with the solar wind. (1973)

Wu, C. S. ; Ogilvie, K. W. ; Hartle, R. E.

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Publication Date: 2019-06-27

Keywords: SPACE RADIATION

Type: Journal of Geophysical Research; 78; Jan. 1

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8

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Generation of radiation in solar corona and interplanetary space by energetic electrons (1994)

Zhou, G. C. ; Yoon, Peter H. ; Wu, C. S.

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Publication Date: 2019-07-13

Description: Emissions of electromagnetic waves with frequencies close to the plasma frequency and/or its second harmonic have been frequently observed in the solar corona and interplanetary space. In the past, a number of theories have been put forward to esplain the generation mechanism of the observed radiation. In this paper, a new model is proposed. The essential point of the present theory is that the Langmuir waves amplified as a result of the usual beam instability can lead to two important effects: first, electrostatic waves with frequencies close to twice the plasma frequency can be excited; and second, a significant modification of the dispersion relation can occur, so that these electrostatic waves can naturally change into electomagnetic waves as they propagate in a plasma in which the plasma density decreases spatially. The latter effect is attributed to a mode couplng process. In addition to the second harmonic emission, emission at the fundamental is also briefly discussed. In this case, as in many other theories, the presence of a very low frequency electostatic wave such as the ion-acoustic wave is assumed. The emission process discussed in the present theory stresses the importance of mode coupling and conversion rather than kinetic processes such as a nonlinear wave-wave or wave-particle scattering.

Keywords: SPACE RADIATION

Type: The Astrophysical Journal, Part 1 (ISSN 0004-637X); 429; 1; p. 406-414

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9

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Electron acceleration at nearly perpendicular collisionless shocks. I - One-dimensional simulations without electron scale fluctuations (1989)

Wu, C. S. ; Burgess, D. ; Krauss-Varban, D.

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Publication Date: 2019-07-12

Description: Under certain conditions electrons can be reflected and effectively energized at quasi-perpendicular shocks. This process is most prominent close to the point where the upstream magnetic field is tangent to the curved shock. A theoretical explanation of the underlying physical mechanism has been proposed which assumes conservation of magnetic moment and a static, simplified shock profile are performed. Test particle calculations of the electron reflection process in order to examine the results of the theoretical analysis without imposing these restrictive conditions. A one-dimensional hybrid simulation code generates the characteristic field variations across the shock. Special emphasis is placed on the spatial and temporal length scales involved in the mirroring process. The simulation results agree generally well with the predictions from adiabatic theory. The effects of the cross-shock potential and unsteadiness are quantified, and the influence of field fluctuations on the reflection process is discussed.

Keywords: SPACE RADIATION

Type: Journal of Geophysical Research (ISSN 0148-0227); 94; 15089-15

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