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Characteristics of the magnetospheric source of interplanetary energetic particles (1984)

Crooker, N. U. ; Luhmann, J. G. ; Stahara, S. S. ; [et al.]

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Publication Date: 2011-08-18

Description: The Earth's bow shock is frequently cited as an example of an astrophysical shock where particle acceleration is observed. However, because energetic particles observed upstream of the bow shock may be accelerated within the magnetosphere, it is important to understand the properties of the magnetospheric source. A first order picture of the spatial distribution of magnetospheric particles in the magnetosheath and upstream is obtained by mapping those magnetic field lines which drape over the magnetopause through the bow shock. Subsets of these field lines that connect to potential sites of magnetic merging on the magnetopause are also traced in the event that leakage occurs preferentially where normal components of the field are present across the boundary. The results can be used to determine whether the so-called diffuse particles observed upstream are accelerated locally or within the magnetosphere.

Keywords: SPACE RADIATION

Type: Neilsen Eng. and Res., Inc. Appl. of A Global Solar Wind/Planetary Obstacle Interaction Computational Model 18p (SEE N84-26509 16-88)

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ATS-6 - Synchronous orbit trapped radiation studies with an electron-proton spectrometer (1975)

Winckler, J. R. ; Erickson, K. N. ; Walker, R. J. ; [et al.]

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Publication Date: 2019-06-27

Description: The paper discusses the University of Minnesota experiment on ATS-6 designed to study the origin and dynamics of high-energy electrons and protons in the outer radiation belt and in the near-earth plasma sheet. The experiment consists of two nearly identical detector assemblies, each of which is a magnetic spectrometer containing four gold-silicon surface barrier detectors. The instrument provides a clean separation between protons and electrons by the combination of pulse height analysis and magnetic deflection.

Keywords: SPACE RADIATION

Type: IEEE Transactions on Aerospace and Electronic Systems; AES-11; Nov. 197

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Pitch angle dispersion of drifting energetic protons at synchronous orbit (1978)

Walker, R. J. ; Erickson, K. N. ; Winckler, J. R.

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Publication Date: 2019-06-27

Description: The time of arrival at ATS 6 of substorm-associated energetic proton flux enhancements has been examined as a function of both energy and pitch angle by using electron-proton spectrometer data. The protons exhibit energy dispersion with the particles with the highest energy arriving first. This has generally been interpreted as evidence that these particles have gradient- and curvature-drifted to the spacecraft from an acceleration region on the nightside. In the evening quadrant, proton enhancements at 90 deg pitch angle arrived at the spacecraft prior to those at small pitch angles. However, on the dayside the increase occurs first at the smallest pitch angle (about 30 degrees). The difference between the arrival times of the 30 deg and 90 deg protons increases for more westward local times. For the highest energy range observed, drifting protons are rarely seen at large pitch angles. These observations place severe restrictions on the simple drift models. Since the pitch angle dependence of the particle drift velocity is a field geometric quantity, the observations require the modification of present magnetospheric magnetic field models. In particular, the models need to reproduce better the enhanced field observed on the dayside near synchronous orbit.

Keywords: SPACE RADIATION

Type: Journal of Geophysical Research; 83; Apr. 1

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