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Radio and Plasma Wave Observations at Saturn from Cassini's Approach and First Orbit (2005)

Kurth, W. S. ; Gurnett, D. A. ; Lecacheux, A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: We report data from the Cassini radio and plasma wave instrument during the approach and first orbit at Saturn. During the approach, radio emissions from Saturn showed that the radio rotation period is now 10 hours 45 minutes 45 k 36 seconds, about 6 minutes longer than measured by Voyager in 1980 to 1981. In addition, many intense impulsive radio signals were detected from Saturn lightning during the approach and first orbit. Some of these have been linked to storm systems observed by the Cassini imaging instrument. Within the magnetosphere, whistler-mode auroral hiss emissions were observed near the rings, suggesting that a strong electrodynamic interaction is occurring in or near the rings.

Keywords: Lunar and Planetary Science and Exploration

Type: Science; Volume 307; 1255-1259

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Control of Jupiter's Radio Emission and Aurorae by the Solar Wind (2002)

Kurth, W. S. ; Lecacheux, A. ; Bolton, S. J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-23

Description: Radio emissions from Jupiter provided the first evidence that this giant planet has a strong magnetic field and a large magnetosphere. Jupiter also has polar aurorae, which are similar in many respects to Earth's aurorae. The radio emissions are believed to be generated along the high-latitude magnetic field lines by the same electrons that produce the aurorae, and both the radio emission in the hectometric frequency range and the aurorae vary considerably. The origin of the variability, however, has been poorly understood. Here we report simultaneous observations using the Cassini and Galileo spacecraft of hectometric radio emissions and extreme ultraviolet auroral emissions from Jupiter. Our results show that both of these emissions are triggered by interplanetary shocks propagating outward from the Sun. When such a shock arrives at Jupiter, it seems to cause a major compression and reconfiguration of the magnetosphere, which produces strong electric fields and therefore electron acceleration along the auroral field lines, similar to the processes that occur during geomagnetic storms at the Earth.

Keywords: Lunar and Planetary Science and Exploration

Type: Letters to Nature; Volume 415; 985-987

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Cassini Radio and Plasma Wave Observations at Saturn (2005)

Gurnett, D. A. ; Cornilleau-Wehrlin, N. ; Ceccni, B. ; [et al.]

In: CASI

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Publication Date: 2017-10-02

Description: Results are presented from the Cassini radio and plasma wave instrument during the approach and first few orbits around Saturn. During the approach the intensity modulation of Saturn Kilometric Radiation (SKR) showed that the radio rotation period of Saturn has increased to 10 hr 45 min plus or minus 36 sec, about 6 min longer than measured by Voyager in 1980-81. Also, many intense impulsive radio signals called Saturn Electrostatic Discharges (SEDs) were detected from saturnian lightning, starting as far as 1.08 AU from Saturn, much farther than terrestrial lightning can be detected from Earth. Some of the SED episodes have been linked to cloud systems observed in Saturn s atmosphere by the Cassini imaging system. Within the magnetosphere plasma wave emissions have been used to construct an electron density profile through the inner region of the magnetosphere. With decreasing radial distance the electron density increases gradually to a peak of about 100 per cubic centimeter near the outer edge of the A ring, and then drops precipitously to values as low as .03 per cubic centimeter over the rings. Numerous nearly monochromatic whistler-mode emissions were observed as the spacecraft passed over the rings that are believed to be produced by meteoroid impacts on the rings. Whistlermode emissions, similar to terrestrial auroral hiss were also observed over the rings, indicating that an electrodynamic interaction, similar to auroral particle acceleration, may be occurring in or near the rings. During the Titan flybys Langmuir probe and plasma wave measurements provided observations of the density and temperature in Titan's ionosphere.

Keywords: Lunar and Planetary Science and Exploration

Type: Lunar and Planetary Science XXXVI, Part 7; LPI-Contrib-1234-Pt-7

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Plasma Densities in the Vicinity of Callisto from Galileo Plasma Wave Observations (2000)

Gurnett, D. A. ; Persoon, A. M. ; Bolton, S. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The Galileo spacecraft has made seven close flybys of Jupiter's moon Callisto. During the closest of these (C22), which approached to within 535 km of the surface, the plasma wave instrument detected a very clear upper hybrid emission as the spacecraft passed near the moon. The peak electron density indicated by the upper hybrid resonance emission was 400/cc, almost one-thousand times the, electron density in the magnetosphere of Jupiter at the orbit of Callisto. These observations indicate that Callisto is probably surrounded by a dense ionospheric-like plasma.

Keywords: Lunar and Planetary Science and Exploration

Type: Paper 2000GL003751 , Geophysical Research Letters (ISSN 0094-8276); 27; 13; 1867-1870

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Saturn's Plasma Density Depletions Along Magnetic Field Lines Connected to the Main Rings (2018)

Persoon, A. M. ; Gurnett, D. A. ; Wahlund, J.-E. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: We report on a set of clear and abrupt decreases in the high-frequency boundary of whistlerode emissions detected by Cassini at high latitudes (about 40) during the low-altitude proximal flybys f Saturn . These abrupt decreases or dropouts have start and stop locations that correspond to L shells at the dges of the A and B rings. Langmuir probe measurements can confirm, in some cases, that the abrupt decrease in the high-frequency whistler mode boundary is associated with a corresponding abrupt electron density dropout over evacuated field lines connected to the A and B rings. Wideband data also reveal electron plasma oscillations and whistler mode cutoffs consistent with a low-density plasma in the region. he observation of the electron density dropout along ring-connecting field lines suggests that strong ambipolar forces are operating, drawing cold ionospheric ions outward to fill the flux tubes. There is an analog with the refilling of flux tubes in the terrestrial plasmasphere. We suggest that the ring-connected electron density dropouts observed between 1.1 and 1.3 R(sub s) are connected to the low-density ring plasma cavity observed overtop the A and B rings during the 2004 Saturn orbital insertion pass.

Keywords: Lunar and Planetary Science and Exploration

Type: GSFC-E-DAA-TN63121 , Geophysical Research Letters (ISSN 0094-8276) (e-ISSN 1944-8007); 45; 16; 8104-8110

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