The IMAGE mission is the first of its kind. It is designed to comprehensive
ly image a variety of emissions from the Earth's magnetosphere with suffici
ent time resolution to follow the dynamics associated with the development
of magnetospheric storms. This paper describes initial observations of two
qualitatively different geomagnetic storms by the IMAGE High Energy Neutral
Atom imager (HENA). HENA images formed at energies between 10 and 60 keV/n
ucleon reveal the distribution and the evolution of energetic ion distribut
ions as they are injected into the ring current during geomagnetic storms,
drift about the Earth on both open and closed drift paths, and decay throug
h charge exchange to pre-storm levels. Substorm ion injections are also ima
ged, as are regions of low altitude, high latitude ion precipitation into t
he upper atmosphere. Two events are discussed: one a major magnetic storm (
the "Bastille Day" storm of July 15 and 16, 2000, Dst = -300nT), and the ot
her, a minor storm (June 10, 2000, Dst = -55nT). The larger storm is charac
terized by ion injection deep into the magnetosphere (L similar to3 R-E), w
hile the images from the minor storm are (L similar to3 R-E), while the ima
ges from the minor storm are consistent with injection to L similar to7 R-E
.