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11

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Dynamic properties of the thermosphere inferred from Pioneer Venus mass spectrometer measurements (1980)

Niemann, H. B. ; Taylor, H. A., Jr. ; Brinton, H. C. ; [et al.]

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Publication Date: 2011-08-18

Description: The data obtained by the Pioneer Venus spectrometer experiments indicate that the day-night temperature contrast on Venus is associated with wind velocities of about 200 m/s which transport oxygen, helium, and hydrogen toward the night side. A mass exchange with the mesosphere commensurate with an eddy diffusion coefficient of 3 x 10 to the 7th is required to buffer the horizontal advection so as to reproduce the observed day time bulge in oxygen and the small diurnal variations in helium. The observed time response and magnitude of the day-night density variations require transport processes to be effective over time periods between five and ten days, implying a superrotation rate or prevailing winds in excess of 50 m/s at the equator. Nonlinear mass transport results in wave steepening and contributes to the amplification of the density extrema in hydrogen and helium.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 85; Dec. 30

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12

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Global observations of the composition and dynamics of the ionosphere of Venus - Implications for the solar wind interaction (1980)

Daniell, R. E., Jr. ; Bauer, S. J. ; Hartle, R. E. ; [et al.]

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Publication Date: 2011-08-18

Description: The in-situ measurements of the global composition and Venus ionosphere dynamics recorded by the Bennett ion mass spectrometer on the Pioneer Venus orbiter during Dec. 1978-Aug. 1979 are presented. The observations of three plasma regimes show the bowshock-ionosheath region, the thermal ionosphere, and a superthermal flowing ion layer contacting the ionosphere at the ionopause and extending outward to different heights above the planet. An abundant ionosphere dominated by O(+) above 200 km and by O2(+) down to the typical periapsis altitudes of 160 km occur during quiet periods; less disturbed data shows strong day to night changes in the distributions of ions including O(+), O2(+), CO2(+), and N(+). The ionopause is located near the subpolar point at 250-400 km; under disturbed nighttime conditions it may have randomly spaced concentration gradients in the dusk region.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 85; Dec. 30

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13

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Dynamical response of the dayside ionosphere of Venus to the solar wind (1980)

Brace, L. H. ; Daniell, R. E., Jr. ; Bauer, S. J. ; [et al.]

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Publication Date: 2011-08-18

Description: Dayside ion composition measurements made by the orbiter ion mass spectrometer and the orbiter electron temperature probe on the Pioneer Venus orbiter are used to infer the dominant processes involved in the dynamic response of the Venus ionosphere to the solar wind. The analysis is confined to the topside ionosphere in the vicinity of the subsolar point, where the ionosphere-solar wind interaction is expected to be maximized. Height profiles of the ion composition and plasma temperatures in the main body of the topside ionosphere, lying between the ionopause and chemical equilibrium regions, reveal that the ionosphere is in a compressed state. This region of the ionosphere is interpreted in terms of a stationary equilibrium where the compression is derived from the ponderomotive force j x B. The estimated magnitude of this force is confirmed by the magnetic field measurements made by the orbiter magnetometer.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 85; Dec. 30

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14

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Titan's ion exosphere observed from Voyager 1 (1982)

Lazarus, A. J. ; Atreya, S. K. ; Hartle, R. E. ; [et al.]

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Publication Date: 2011-08-18

Description: The plasma wake surrounding Titan in Saturn's rotating magnetosphere is characterized by a plasma which is denser and cooler than the surrounding subsonic magnetospheric plasma, and which is produced by the deflection of magnetospheric plasma around Titan and the addition of exospheric ions picked up by the rotating magnetosphere. A resemblance to the interaction between the solar wind and Venus is shown for the case of ion pickup in the ion exosphere outside Titan's magnetic tail and ion flow within the boundaries of the tail as Saturn's rotating magnetosphere interacts with Titan. The boundary of the tail is indicated by a sharp reduction in the flux of high-energy electrons, which are removed by inelastic scattering with the atmosphere and centrifugal drift produced when the electrons traverse the magnetic field draped around Saturn.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 87; Mar. 1

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15

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Venus upper atmosphere neutral composition - Preliminary results from the Pioneer Venus orbiter (1979)

Kasprzak, W. T. ; Hartle, R. E. ; Hunten, D. M. ; [et al.]

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Publication Date: 2011-08-17

Description: Measurements in situ of the neutral composition and temperature of the thermosphere of Venus are being made with a quadrupole mass spectrometer on the Pioneer Venus orbiter. The presence of many gases, including the major constituents CO2, CO, N2, O, and He has been confirmed. Carbon dioxide is the most abundant constituent at altitudes below about 155 kilometers in the terminator region. Above this altitude atomic oxygen is the major constituent, with O/CO2 ratios in the upper atmosphere being greater than was commonly expected. Isotope ratios of O and C are close to terrestrial values. The temperature inferred from scale heights above 180 kilometers is about 400 K on the dayside near the evening terminator at a solar zenith angle of about 69 deg. It decreases to about 230 K when the solar zenith angle is about 90 deg.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science; 203; Feb. 23

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16

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Ionosphere of Venus - First observations of the dayside ion composition near dawn and dusk (1979)

Taylor, H. A., Jr. ; Donahue, T. M. ; Hartle, R. E. ; [et al.]

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Publication Date: 2011-08-17

Description: Independent Bennett radio-frequency ion mass spectrometers on the Pioneer Venus bus and orbiter spacecraft obtained in situ measurements of the composition of the ionosphere of Venus. The spectrometer on the bus explored the dawn region while the spectrometer on the orbiter explored the duskside region. Information on the ion composition in the topside, the lower ionosphere, and the upper ionosphere is presented. Below the O(+) peak near 200 km, the ions are found to exhibit scale heights consistent with a neutral gas temperature of about 180 K near the terminator. In the upper ionosphere, scale heights of all species reflect the effects of plasma transport.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science; 203; Feb. 23

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17

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Observed composition of the ionosphere of Venus - Implications for the ionization peak and the maintenance of the nightside ionosphere (1982)

Brace, L. H. ; Hartle, R. E. ; Daniell, R. E., Jr. ; [et al.]

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Publication Date: 2011-08-18

Description: Across the nightside of Venus, daily measurements from the PV Orbiter Ion Mass Spectrometer often indicate an ionosphere of relatively abundant concentration, with a composition characteristic of the dayside ionosphere. Such conditions are interspersed by other days on which the ionosphere appears to largely 'disappear' down to about 200 km, with ion concentrations at lower heights also much reduced. These characteristics, coupled with observations of strong day to night flows of O(+) in the upper ionosphere, support arguments that ion transport from the dayside is important for the maintenance of the nightside ionosphere. In the range 140-160 km, strong concentrations of O2(+) and NO(+) indicate that the ionization peak is at times composed of at least two prominent ion species. Nightside concentrations of O2(+) and NO(+) as large as 100,000 and 10,000/cu cm, respectively, appear to require sources in addition to that provided by transport. The most probable sources are considered briefly, and no satisfactory explanation is yet found for the observed NO(+) concentrations.

Keywords: LUNAR AND PLANETARY EXPLORATION

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18

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Mercury's helium exosphere (1975)

Thomas, G. E. ; Hartle, R. E. ; Curtis, S. A.

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Publication Date: 2011-08-16

Description: A model He exosphere of Mercury is developed whose source derives from accretion of the small fraction of solar-wind He(++) that is captured by the magnetosphere and absorbed at the planetary surface. The model is based on a lunar analogy whereby the surface is saturated with He. Surface and radial density distributions are derived, and the dayside concentration is determined by requiring that the limb intensity at 584 A equals the observed intensity. To maintain the He exosphere, it is found that only a fraction of the solar-wind He(++) flux intercepted by the magnetosphere need be captured. This corresponds to a total accretion rate of 6.8 by 10 to the 22nd power He(++) ions per sec at the surface, which also represents the upper limit to the total outgassing rate of He from the interior.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Geophysical Research; 80; Sept. 1

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19

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Mercury's helium exosphere after Mariner 10's third encounter (1978)

Curtis, S. A. ; Hartle, R. E.

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Publication Date: 2011-08-17

Description: From a comparison of the Mariner 10 third encounter UV spectrometer data with intensities generated from a newly constructed model exosphere, a new value of 4.5 x 10 to the -4th power for the fraction of the solar wind He(++) flux to be intercepted and captured by Mercury's magnetosphere, if the observed He atmosphere is maintained by the solar wind, has been derived. If an internal source for He prevails, the corresponding upper bound for the global outgassing rate is estimated to be 4.5 x 10 to the 22nd power/s. These values differ from those given earlier because of the present use of a surface temperature distribution satisfying the heat equation over Mercury's entire surface which employs Mariner-10-determined mean surface thermal characteristics. The mean standoff distance of Mercury's magnetopause averaged over Mercury's orbit is also used. Agreement between the observed and calculated intensities is found to be good. Minor discrepancies on the nightside of the terminator are explicable in terms of differences between actual and computed temperatures and scale height structure changes.

Keywords: LUNAR AND PLANETARY EXPLORATION

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

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20

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Ionosphere of Venus - First observations of the effects of dynamics on the dayside ion composition (1979)

Hartle, R. E. ; Maehl, R. C. ; Bauer, S. J. ; [et al.]

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Publication Date: 2011-08-17

Description: Data obtained by Bennett radio-frequency ion mass spectrometers indicate that the ionosphere envelope, dominated above 200 km by O(+), responds dramatically to variations in the solar wind pressure. The pressure compresses the thermal ion distributions from heights as great as 1800 km inward to 280 km. At the thermal ion boundary, or ionopause, the ambient ions are swept away by the solar wind, while at higher altitudes energetic ion currents are detected. Within the ionosphere, ion convection stimulated by the solar wind interaction causes pass-to-pass differences in the ion scale heights.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Science; 203; Feb. 23

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