The HF radars of the Super Dual Auroral Radar Network (SuperDARN) provide continuous monitoring of the high-latitude ionosphere over large areas in both the northern and southern hemispheres. The HF technique generates estimates of the E¿B convective drift of ionospheric plasma when suitable small-scale (~10 m) irregularities are present and viewed under favorable magnetic aspect conditions (radar k vector ⊥ to B). In this paper we report on the statistics of HF scattering occurrence. The study period encompasses 5.5 years (1988 to mid-1993) of routine observations with the HF radar located at Goose Bay, Labrador, Canada, and corresponds to the most recent period of solar cycle maximum. The data were carefully filtered for those instances when high-confidence F region velocity measurements were obtained within 1¿¿3¿ magnetic latitude/longitude regions and 12-min UT intervals. For average conditions the rates at which scatter occurred at particular values of invariant latitude ranged from 40% with MLT. The probability of making velocity measurements somewhere in the radar field of view varied from ~80% on the nightside to ~45% on the noon meridian. When scatter was detected, the average latitudinal coverage varied from a minimum of 4¿&Lgr; on the dayside to over 6¿&Lgr; on the nightside. There were significant dependencies on Kp and season. The highest occurrence rates (>60%) were obtained on the nightside for quiet conditions and in the afternoon for disturbed conditions. Winter was the most active season. HF scattering was limited by the equatorward boundary of the Feldstein oval but extended poleward of the oval into the polar cap. Scattering in the noon sector was associated with the aggregate cusp/mantle/low-latitude boundary layer region. The scattering activity was notably suppressed in the morning sector under disturbed conditions and in the noon and afternoon sectors in summer. We discuss the geophysical factors that influence the likelihood of generating HF scatter. These results have value for the design of experiments involving the SuperDARN HF radars.¿ 1997 American Geophysical Union |