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1

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Future planetary exploration (1986)

Kivelson, M. G.

In: Other Sources

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Publication Date: 2019-06-28

Description: The past, present, and future of planetary exploration are reviewed. A histogram of U.S. space launches between 1957 and 1983 shows that the peak activity came in 1966. Launchings of vehicles for planetary exploration also peaked in 1966, but the decreasing rate since that time has been partially offset by increased payload sophistication. Missions discussed include: the Galileo mission to Jupiter, several missions to Halley's comet, and missions to Venus. Missions in the early stages of planning include a Venus Radar Mapper, a Mars Geoscience/Climatology Orbiter, an ESA mission (Kepler) to orbit Mars, and a NASA Comet Rendezvous and Asteroid Flyby mission.

Keywords: LUNAR AND PLANETARY EXPLORATION

Format: text

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2

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The fine structure of Langmuir waves observed upstream of the bow shock at Venus (1994)

Strangeway, R. J. ; Kurth, W. S. ; Hospodarsky, G. B. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Highly structured Langmuir waves, also known as electron plasma oscillations, have been observed in the foreshock of Venus using the plasma wave experiment on the Galileo spacecraft during the gravity assist flyby on February 10, 1990. The Galileo wideband sampling system provides digital electric field waveform measurements at sampling rates up to 201,600 samples per second, much higher than any previous instrument of this type. The main Langmuir wave emission band occurs near the local electron plasma frequency, which was approximately 43 kHz. The Langmuir waves are observed to shift above and below the plasma frequency, sometimes by as much as 20 kHz. The shifts in frequency are closely correlated with the downstream distance from the tangent field line, implying that the shifts are controlled by the electron beam velocity. Considerable fine structure is also evident, with time scales as short as 0.15 milliseconds, corresponding to spatial scales of a few tens of Debye lengths. The frequency spectrum often consists of beat-type waveforms, with beat frequencies ranging from 0.2 to 7 kHz, and in a few cases, isolated wavepackets. The peak electric field strengths are approximately 1 mV/m. These field strengths are too small for strongly nonlinear processes to be important. The beat-type waveforms are suggestive of a parametric decay process.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA-CR-196123 , NAS 1.26:196123 , U-OF-IOWA-93-21

Format: application/pdf

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Overview

3

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The giant planets and their satellites - Report on the Cospar Symposium, Ottawa, Canada, May 18-21, 1982 (1983)

Masursky, H. ; Cravens, T. E. ; Johnson, T. V. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Some symposium lectures on the subject of the giant planets and their satellites are summarized. The general topics addressed include: planetary and satellite interiors and surfaces, satellite tori and plumes, aeronomy and dynamics, interaction of magnetospheric plasma with rings and satellites, plasma physics of the outer planets, and dynamics and electrodynamics of rings.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: (ISSN 0273-1177)

Format: text

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4

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Dawn-dusk electric field asymmetry of the Io plasma torus (1983)

Kivelson, M. G. ; Barbosa, D. D.

In: Other Sources

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Publication Date: 2019-06-28

Description: The effects of a combined convection and corotation electric field across the Io plasma torus are considered. A dawn-to-dusk electric field E sub C will modify the orbits of charged particles shifting them toward dawn. The radial drift imposed by the perturbed orbits implies a local time-dependent modulation of low-energy ion and electron temperatures with particles hotter at dusk than at dawn. With E sub C approximately 4 mV/m, the orbits near 6 Jupiter radii would be shifted by approximately 0.2 Jupiter radius. Then the electron temperature would be 20% higher at dust than at dawn, an effect which could explain the local time asymmetry of EUV intensity found by the Voyager ultraviolet spectrometer. The source of the convection electric field is internal to the magnetosphere, and is attributed to the tailward escape of Iogenic and Jovian plasma beyond the Alfven surface.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Geophysical Research Letters; 10; Mar. 198

Format: text

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5

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The interaction of flowing plasmas with planetary ionospheres - A Titan-Venus comparison (1983)

Kivelson, M. G. ; Russell, C. T.

In: Other Sources

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Publication Date: 2019-06-28

Description: Voyager I data from the moon Titan's wake are employed to model the external flow direction and, in comparison with magnetotail observations of Venus, show that the magnetic field may change in response to the presence of flux tubes. The Titan magnetic field was measured at distances as close as 2.7 Titan radii, showing final, unperturbed fields directly southward, while a northern lobe was observed which pointed away from Titan. The central portion of the pattern was displaced radially toward Saturn relative to the direction of corotation. Pioneer Venus orbiter data have shown that Venus, like Titan, is a nonmagnetic body, and both objects have displayed a two-lobe wake field with oppositely oriented fields separated by a neutral sheet and lowered field magnitudes on flux tubes near the dayside ionospheres. It is suggested that the asymmetries in the wake structure are due to coupling of different regions of the wakes with the dayside or nightside ionosphere.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 88; Jan. 1

Format: text

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6

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Io and its plasma environment (1980)

Southwood, D. J. ; Walker, R. J. ; Slavin, J. A. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: The interaction of Io with its plasma torus and the Jovian magnetic field is described and examined in the context of several currently popular models. Three specific matters are addressed. First, features implied by sub-Alfvenic flow which must be common to all models are discussed. Next, the magnetic signature observed near Io by the Goddard Space Flight Center Voyager 1 magnetometer is examined and it is pointed out that the preliminary estimate of 5,000,000 A current may be an overestimate. Good fits are obtained with alternative current distributions which yield currents as small as 700,000 A through Io. The best fits are obtained for an Alfven Mach number of 0.15, but good fits are also found for Alfven Mach numbers between 0.1 and 0.25. Lastly, the crucial role of charged particle data for probing the near Io interaction is pointed out. Published data from the low energy charged particle (LECP) detector are made to suggest that Io has an intrinsic magnetic field of magnitude comparable with earlier estimates. Predictions are made which can test this picture as further data become available.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 85; Nov. 1

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7

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Magnetic fields and charged particles around major planets and their satellites (1981)

Kivelson, M. G.

In: Other Sources

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Publication Date: 2019-06-28

Description: It is noted that whereas Jupiter and Saturn have magnetospheres whose large-scale structure can be understood by analogy with earth, the ways in which the magnetospheres differ are of great interest. At earth, large-scale processes are dominated by convective flows of plasma driven by the solar wind. At Jupiter, centrifugal effects that are driven by planetary rotation are critical. Magnetic particle sources include not only the ionosphere and solar wind (as at earth) but also satellites and rings. The internal planetary magnetic moments controlling the scale of the magnetosphere differ by orders of magnitude between Jupiter and earth. It is pointed out that where the magnetic moments have been modeled from spacecraft data, the restricted spatial sampling has biased the results and limited confidence in details of the models. Voyager data suggest that Io may itself be magnetized and surrounded by an entirely unfamiliar type of magnetosphere.

Keywords: LUNAR AND PLANETARY EXPLORATION

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8

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Explanation of the inward displacement of Io's hot plasma torus and consequences for sputtering sources (1985)

Moreno, M. A. ; Walker, R. J. ; Kivelson, M. G. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Radial profiles of the ion density and flux-tube content in the Io torus have peak values inside Io's orbit, even though Io is the effective source of these ions. Formation of an inward peak constrains either the velocity distributions or source regions of sputtered neutrals. A further constraint is that the ionization of neutrals on trapped trajectories that return to Io's surface must be limited. A dominant sulphur source is most easily reconciled with these constraints.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Nature (ISSN 0028-0836); 315; 373-378

Format: text

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9

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Magnetospheres of the Galilean satellites (1979)

Southwood, D. J. ; Slavin, J. A. ; Kivelson, M. G.

In: Other Sources

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Publication Date: 2019-06-27

Description: The plasma and field perturbations of magnetospheres that would surround magnetized Galilean satellites embedded in the corotating Jovian plasma differ from those produced by interaction with an unmagnetized conductor. If the intrinsic satellite dipole is antiparallel to that of Jupiter, the magnetosphere will be open. It is predicted that Io has an internal magnetic field with a dipole moment of 6.5 x 10 to the 22nd gauss-cubic centimeters antiparallel to Jupiter's, and Io's special properties can be interpreted on the basis of a reconnecting magnetosphere.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science; 205; Aug. 3

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10

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A time dependent model of the Jovian current sheet (1978)

Coleman, P. J., Jr. ; Kivelson, M. G. ; Froidevaux, L. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Analysis of vector helium magnetometer measurements during the Pioneer 10 outbound pass through the Jovian magnetosphere reveals that the average location of the near-equatorial current sheet is a surface whose shape is determined by the velocity at which the magnetic perturbations produced by a rotating tilted dipole propagate to large radial distances. A model is presented which is a surface encircling the planet and rotating rigidly with it. Based on a linear fit to the times of the current sheet crossings, a formula is derived for the surface representing the average position of the near-equatorial current sheet in the Jovian magnetosphere.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 83; Oct. 1

Format: text

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