Observation and Modeling of Energetic Particles at Synchronous Orbit on July 29, 1977.

Abstract

In the twelve hours following a worldwide storm sudden commencement at 0027 UT on 29 July, there was a series of at least four magnetospheric substorms, the last and largest of which exhibited an expansion phase onset at approximately 1200 UT. Data from six spacecraft in three general local time groupings (0300, 0700, and 1300 LT) were examined and vector magnetic field data and energetic electron and ion data from approximately 15 keV to greater than 2 MeV were employed. Four primary types of studies were carried out: (1) Timing and morphology of energetic particle injections; (2) Variation of particle phase space densities, f (microns = p2/2mB) using local magnetic field and particle flux data; (3) Measurement of boundary motions using high-energy ion gradient anisotropies; and (4) Adiabatic modeling which included injection, large-scale convection, corotation, and gradient drifts. For the 1200 UT substorm, it is concluded that there was a substantial flux dropout in a broad sector near local midnight due to a large-scale boundary motion followed by a recovery to a predroput configuration. There were then several subsequent injection events with distinct onsets (extending as far eastward as 0300 LT) for which ion anisotropy information suggests an inward motion of particles from outside of geostationary orbit. Particle drift information reveals that these particles drifted azimuthally completely around the earth. It is also concluded from the phase space density studies that 'fresh' particles with magnetic moments up to at least several hundred MeV/gauss were injected near geostationary orbit.

Document Details

Document Type

Technical Report

Publication Date

Aug 16, 1982

Accession Number

ADA119485

Entities

Tags