3-D Plasma Analyzer (30-channel, Electrons: 15 eV-30 keV; Ions: 20 eV/q-40 keV/q) The main instrument consisted of two symmetrical quadrispherical
electrostatic analyzers to measure the three-dimensional distributions of
electrons and
ions, respectively, over 4-pi-sr during every satellite spin period (4 seconds). The energy range covered was 15
eV/Q to 30 keV/Q in 30 channels. The angular resolution was 22.5°. Moments of the measured distributions were directly computed on board. An additional retarding-potential analyzer measured the flux of electrons between approximately 0 and 25 eV.
Ion Release Experiment The experiment consisted of eight lithium and eight barium canisters, which were injected from the AMPTE-IRM in pairs by ground command and ignited 10 minutes after separation from the spacecraft. Each of these was either totally lithium or totally barium. A pair of Li/Ba canisters produced a total of 2.E25/7.E24 Li/Ba
atoms, respectively, which were subsequently ionized by solar radiation. Li releases in the solar wind, which was carried out in August/September 1984, were to be followed by an artificial comet release of Ba ions in the dawnside
magnetosheath and a number of Ba and Li releases in the geomagnetic tail. In situ diagnostics by AMPTE-IRM and AMPTE-UKS and optical observations of the
clouds from the ground were followed by tracing of the ions in the inner magnetosphere by AMPTE-CCE.
Mass Separation Ion Spectrometer (MSIS) (H through Ba: 0.5 eV/q-14 keV/q) The instrument consisted of a retarding-potential analyzer entrance section and a toroidal electrostatic energy-per-charge analyzer, followed by a quadrispherical electrostatic analyzer with superimposed radial magnetic field for mass-per-charge analysis. The energy range covered was approximately 0 to 12 (or 24) keV/Q, with adequate mass resolution to separate the Li and Ba tracer ions. Up to eight different ion species could be analyzed simultaneously.
Plasma Wave Spectrometer (64 channel, E- and B-field, E-: 0.0-5.6 MHz; B-: 30 Hz-1.5 MHz) The instrument used a tip-to-tip antenna to measure
electric fields from
DC to 5 MHz and two boom-mounted search coil magnetometers to measure
magnetic fields from 30 Hz to 1 MHz. The signals were analyzed by a
very low frequency VLF/MF 16-channel
spectrum analyzer, three VLF narrow-band swept-frequency receivers, a 60-channel
high frequency HF stepped-frequency receiver, and an analog wide-band receiver.
Suprathermal Energy Ionic Charge Analyzer (H through Fe: 5-270 keV/q; electrons: 35-207 keV) The main instrument consisted of a curved plate electrostatic energy-per-charge analyzer followed by a time-of-flight telescope with a thin carbon foil at the front and a solid-state detector at the rear, which measured ion velocity and residual energy. The energy-per-charge range was 10 to 300 keV/Q. The mass resolution, delta M/M, ranged from 0.25 to 0.12. The instrument package also contained an electron sensor for the energy range 35 to 220 keV, provided by
University of California, Berkeley.
Triaxial Fluxgate Magnetometer The instrument was a three-axis fluxgate magnetometer mounted on a boom. It had two switchable ranges (± 4
microtesla, and ± 60 microtesla) with resolutions of 0.12 and 1.8 nT, respectively and was read out at 32, 16, 8, or 4 vector samples per second, depending on the T/M rate. Signals from each sensor were also fed into four band pass filters with 5.5, 11, 22, and 44-Hz center frequencies and were read out up to two times per second. == End of mission ==