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Langmuir-like waves and radiation in planetary foreshocks (1995)

Robinson, P. A. ; Anderson, R. R. ; Cairns, Iver H. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The basic objectives of this NASA Grant are to develop theoretical understandings (tested with spacecraft data) of the generation and characteristics of electron plasma waves, commonly known as Langmuir-like waves, and associated radiation near f(sub p) and 2f(sub p) in planetary foreshocks. (Here f(sub p) is plasma frequency.) Related waves and radiation in the source regions of interplanetary type III solar radio bursts provide a simpler observational and theoretical context for developing and testing such understandings. Accordingly, applications to type III bursts constitute a significant fraction of the research effort. The testing of the new Stochastic Growth Theory (SGT) for type III bursts, and its extension and testing for foreshock waves and radiation, constitutes a major longterm strategic goal of the research effort.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA-CR-197376 , NAS 1.26:197376

Format: application/pdf

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Strong Langmuir turbulence at Jupiter? (1992)

Robinson, P. A. ; Cairns, Iver H.

In: Other Sources

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Publication Date: 2019-08-28

Description: Langmuir wave packets with short scale lengths less than an approximately equal to 100 lambda e have been observed in Jupiter's foreshock. Theoretical constraints on the electric fields and scale sizes of collapsing wave packets are summarized, extended and placed in a form suitable for easy comparison with Voyager and Ulysses data. The published data are reviewed and possible instrumental underestimation of fields discussed. New upper limits for the fields of the published wave packets are estimated. Wave packets formed at the nucleation scale from the observed large-scale fields cannot collapse because they are disrupted before collapse occurs. The published wave packets are quantitatively inconsistent with strong turbulence collapse. Strict constraints exist for more intense wave packets to be able to collapse: E greater than or approximately equals to 1-8 mV/m for scales less than or approximately equal to 100 lambda e. Means for testing these conclusions using Voyager and Ulysses data are suggested.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Geophysical Research Letters (ISSN 0094-8276); 19; 11 J; 1069-107

Format: text

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Theory for low-frequency modulated Langmuir wave packets (1992)

Cairns, Iver H. ; Robinson, P. A.

In: Other Sources

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Publication Date: 2019-07-12

Description: Langmuir wave packets with low frequency modulations (or beats) observed in the Jovian foreshock are argued to be direct evidence for the Langmuir wave decay L yields L-prime + S. In this decay, 'pump' Langmuir waves L, driven by an electron beam, produce backscattered product Langmuir waves L-prime and ion sound waves S. The L and L-prime waves beat at the frequency and wavevector of the S waves, thereby modulating the wave packets. Beam speeds calculated using the modulated Jovian wave packets (1) are reasonable, at 4-10 times the electron thermal speed, (2) are consistent with theoretical limits on the decay process, and (3) decrease with increasing foreshock depth, as expected theoretically. These results strongly support the theory. The modulation depth of some wave packets suggests saturation by the decay L yields L-prime + S. Applications to modulated Langmuir packets in the Venusian and terrestrial foreshocks and in a type III radio source are proposed.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Geophysical Research Letters (ISSN 0094-8276); 19; 22; p. 2187-2190.

Format: text

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