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The ionosphere of Europa from Galileo radio occultations (1997)

Flasar, F. M. ; Hinson, D. P. ; Nagy, A. F. ; [et al.]

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Publication Date: 2011-08-24

Description: The Galileo spacecraft performed six radio occultation observations of Jupiter's Galilean satellite Europa during its tour of the jovian system. In five of the six instances, these occultations revealed the presence of a tenuous ionosphere on Europa, with an average maximum electron density of nearly 10(4) per cubic centimeter near the surface and a plasma scale height of about 240 +/- 40 kilometers from the surface to 300 kilometers and of 440 +/- 60 kilometers above 300 kilometers. Such an ionosphere could be produced by solar photoionization and jovian magnetospheric particle impact in an atmosphere having a surface density of about 10(8) electrons per cubic centimeter. If this atmosphere is composed primarily of O2, then the principal ion is O2+ and the neutral atmosphere temperature implied by the 240-kilometer scale height is about 600 kelvin. If it is composed of H2O, the principal ion is H3O+ and the neutral temperature is about 340 kelvin. In either case, these temperatures are much higher than those observed on Europa's surface, and an external heating source from the jovian magnetosphere is required.

Keywords: Lunar and Planetary Science and Exploration

Type: Science (ISSN 0036-8075); Volume 277; 5324; 355-8

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The Cassini Radio Science Investigations (1998)

Iess, L. ; Kliore, A. ; Rappaport, N. ; [et al.]

In: Other Sources

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Publication Date: 2018-06-08

Type: International Conference on Jupiter and Saturn; Nantes; France

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Cassini Titan Radio Science (1997)

Armstrong, J. W. ; Bertotti, B. ; Kliore, A. J. ; [et al.]

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Publication Date: 2018-06-08

Keywords: Communications and Radar

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On Europa's Magnetospheric Interaction: A MHD Simulation of the E4 Flyby (1999)

Combi, M. R. ; DeZeeuw, D. L. ; Nagy, A. F. ; [et al.]

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Publication Date: 2019-07-13

Description: The global three-dimensional interaction of Europa with the Jovian magnetosphere is modeled by using a complete set of ideal magnetohydrodynamic (MHD) equations. The model accounts for exospheric mass loading, ion-neutral charge exchange, recombination, and a possible intrinsic dipole magnetic field of Europa. The single-fluid MHD equations are solved by using a modem, finite volume, higher-order, Godunov-type method on an adoptively refined unstructured grid, which allows detailed modeling of the region near Europa while still resolving both the upstream region and the satellite's wake. The magnetic field and plasma density measured during Galileo's EGA flyby of December 19, 1996, are reproduced reasonably well in the simulation. We find the agreement between the data and our model particularly convincing if we assume that the plasma velocity during the EGA flyby deviated from the nominal corotation direction by approximately 20 deg. Evidence from the Galileo energetic particle detector also supports this assumption. In this case, we can fit the data using a dipole with orientation close to that of an induced dipole arising from the interaction of a hypothetical conducting subsurface layer on Europa with the periodically changing magnetic field of Jupiter. However, the magnitude of the dipole in our model is somewhat smaller (70%) than that suggested by Khurana et al. The total mass loading and ion-neutral charge exchange rates are consistent with the estimates of Europa's atmosphere and ionosphere.

Keywords: Lunar and Planetary Science and Exploration

Type: Paper-1999JA900263 , Journal of Geophysical Research (ISSN 0148-0227); 104; A9; 19,983-19,992

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Nightside electron flux measurements at Mars by the Phobos-2 HARP instrument (1995)

Kotova, G. ; Nagy, A. F. ; Gringauz, K. ; [et al.]

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Publication Date: 2019-08-27

Description: All the available nightside electron data obtained during circular orbits at Mars from the Phobos-2 Hyperbolic Retarded Potential Analyzer (HARP) instrument have been examined in detail and are summarized in this paper. An electron flux component with energies exceeding that of the unperturbed solar wind was observed inside the magnetosheath, indicating the presence of acceleration mechanism(s). The character of the electron fluxes measured in the magnetotail cannot be classified in any simple manner, however, there is a correlation between the electron fluxes measured well inside this region and the unperturbed solar wind ram pressure.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Geophysical Research Letters (ISSN 0094-8276); 22; 7; p. 863-866

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The sheath/ionosphere boundary layer at Venus (1995)

Nagy, A. F. ; Shapiro, V. D. ; Shevchenko, V. I. ; [et al.]

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Publication Date: 2019-08-27

Description: At Venus the interaction of the shocked solar wind and cold planetary ions takes place in the dayside mantle. The shocked solar wind is a warm, drifting Maxwellian plasma whereas the planetary plasma is cold; the plasma in the mantle is strongly magnetized. The coexistence of these two populations is unstable, and it leads to wave excitations that organize the energy and momentum exchange between the shocked solar wind and the plasma of planetary origin. The source of the free energy is the solar wind. The intensive wave activity seen in the 100 Hz channel of the wave instrument onboard the Pioneer-Venus Orbiter in the dayside mantle region of Venus can be identified as almost electrostatic VLF waves excited by the kinetic branch of the modified two-stream lower hybrid instability. The waves interact with the particles, and the planetary plasma is heated and accelerated outside the ionosphere, close to its upper boundary. This way solar wind scavenges the ionosphere, and planetary ions leave the planetary magnetosphere. A portion of the wave energy is capable of penetrating directly into the ionosphere and heating it.

Keywords: ASTROPHYSICS

Type: Advances in Space Research (ISSN 0273-1177); 16; 4; p. (4)71-(4)74

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