Twin payload observations of incident and backscattered auroral electrons

Reasoner, D. L.; Chappell, C. R.

doi:10.1029/ja078i013p02176

Cited by 92 publications

(26 citation statements)

References 15 publications

(2 reference statements)

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“…The above predictions of secondary flux in the energy range 0.5 to •2 keV are at least a factor of 30 lower than these observations. Similar spectra have been observed by others [e.g., Reasoner and Chappell, 1973;Arnoldy and Choy, 1973].…”

Section: Introduction 2 Experimental Resultssupporting

confidence: 90%

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Nonlinear production of suprathermal tails in auroral electrons

Matthews¹,

Pongratz²,

Papadopoulos³

1976

J. Geophys. Res.

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Differential energy spectra of electrons observed in an auroral breakup show evidence that an incident electron beam of energy E = 6–13 keV, width of 2–5 keV, and variable intensity was stabilized over a period of at least several minutes by the oscillating two‐stream instability in the manner previously described by Papadopoulos and Coffey. The critical observed feature predicted by these authors' calculation is a tail with differential flux dj/dE ∝ E−0.5. This tail is much too intense to be attributed to the effects of collisions with atmospheric constituents. It is possible that the tail is part of the beam itself, i.e., produced higher up, but there are at least two arguments against this: first, the observations indicate that the tail approaches isotropy, whereas the beam is mostly downcoming, and second, the tail is observed as low as 130 km; the portion of the tail below 1.5 keV would have been absorbed by the atmosphere at greater heights if it had been incident from above. The observations support the hypothesis that the tail electrons are produced locally and by the proposed stabilization process. Implications are briefly discussed.

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Section: Introduction 2 Experimental Resultssupporting

confidence: 90%

“…Observation of ionization irregularities, or measurement of enhanced resistivity, will be crucial. At present we can say that our spectra and those observed by Arnoldy and Choy [1973] and Reasoner and Chappell [1973] are consistent with the theory. We have not yet found any counterexamples.…”

Section: Discussionsupporting

confidence: 91%

Nonlinear production of suprathermal tails in auroral electrons

Matthews¹,

Pongratz²,

Papadopoulos³

1976

J. Geophys. Res.

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“…In addition the backscatter ratio tends to be larger south of the main portion of the arc. A high backscatter ratio for lowenergy electrons has been noted previously by Reasoner and Chappell [1973], who report ratios of • 1 for electrons below 1.5 keV in a rocket flight over several auroral forms. Arnoldy and Choy [1973] report backscatter ratios for 100-eV electrons with typical values of 2-4 during much of one of their rocket flights.…”

Section: Instrumentation and Data Reductionmentioning

confidence: 99%

electron currents associated with an auroral band

Spiger¹,

Anderson²

1975

J. Geophys. Res.

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Measurements of electron pitch angle distributions and energy spectra over a broad auroral band were used to calculate net electric current carried by auroral electrons in the vicinity of the band. The particle energy spectrometers were carried by a Nike‐Tomahawk rocket launched from Poker Flat, Alaska, at 0722 UT on February 25, 1972. Data are presented which indicate the existence of upward field‐aligned currents of electrons in the energy range 0.5–20 keV. The spatial relationship of these currents to visual structure of the auroral arc and the characteristics of the electrons carrying the currents are discussed.

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“…The differential flux of primary and secondary electrons under auroral activity has been the subject of a series of experimental measurements [Feldman et al, 1972;Arnoldy and Choy, 1973;Reasoner and Chappell, 1973;Feldman and Doering, 1975;Matthews et al, 1976]. A common feature of all these rocket experiments is that between 30 and 85 eV, where the measurements overlap in energy, the electron flux data can be fitted by a power law E -• with 0.5 < a < 1.0.…”

Section: Introductionmentioning

confidence: 99%

Collisionless Effects on the Spectrum of Secondary Auroral Electrons at Low Altitudes.

Papadopoulos

Rowland

1977

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Twin payload observations of incident and backscattered auroral electrons

Cited by 92 publications

References 15 publications

Nonlinear production of suprathermal tails in auroral electrons

Nonlinear production of suprathermal tails in auroral electrons

electron currents associated with an auroral band

Collisionless Effects on the Spectrum of Secondary Auroral Electrons at Low Altitudes.

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