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

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

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Publication Date: 2011-08-24

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 timescales as short as 0.15 ms, 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 wave packets. 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: SOLAR PHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 99; A7; p. 13,363-13,371

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Cassini radio and plasma wave investigation - Data compression and scientific applications (1993)

Alleyne, H. St. C. ; Thompson, J. A. ; Farrell, W. M. ; [et al.]

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Publication Date: 2011-08-24

Description: The Radio and Plasma Wave Science (RPWS) experiment being built for the Cassini spacecraft will study a wide range of plasma and radio wave phenomena in the magnetosphere of Saturn and will also make valuable measurements during the cruise phase and at other encounters. A feature of data from wave receivers is the capability of producing vastly more data than the spacecraft telemetry link is capable of transmitting back to the Earth. Thus, techniques of on-board data compression and data reduction are important. The RPWS instrument has one processor dedicated to data compression tasks.

Keywords: SOLAR PHYSICS

Type: British Interplanetary Society, Journal (ISSN 0007-094X); 46; 3; p. 115-120.

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Fine structure of Langmuir waves produced by a solar electron event (1993)

Hospodarsky, G. B. ; Bolton, S. J. ; Williams, D. J. ; [et al.]

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Publication Date: 2019-07-13

Description: Observations of highly structured bursts of Langmuir waves produced by energetic electrons ejected from a solar flare using wideband plasma wave measurements on the Galileo spacecraft are reported. Attention is given to the solar flare that occurred on December 10, 1990, while the spacecraft was at a radial distance of 0.98 AU from the sun. This flare emitted a stream of energetic electrons and an associated type III radio event, both of which were detected by Galileo. A large number of intense Langmuir wave bursts were detected near the local electron plasma frequency, which was about 25 kHz. The bursts, which lasted about 1.5 hr, coincided with the arrival of the solar electrons. The bursts are highly structured and consist mainly of isolated wave packets with durations as short as 1 ms and beat-type waveforms with beat frequencies ranging from 200 to 500 Hz. The highly structured envelopes of these waves are strongly suggestive of nonlinear parametric decay processes such as those predicted by various theories dealing with the saturation of beam-driven electrostatic instabilities.

Keywords: SOLAR PHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 98; A4; p. 5631-5637.

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