Solar microwave bursts as indicators of the occurrence of solar proton emission

A study has been made of the relation of 19 GHz(2 = 1.58 cm) solar radio bursts to solar proton emission, with particular reference to the usefulness of relatively long duration bursts with intensities exceeding 50 % of the quiet Sun flux (or exceeding ~ 350 x 10 -22 W m -2 Hz -1) as indicators of the occurrence of proton events during the four years from 1966-69.76 to 88 % of such bursts are directly associated with solar protons and 60 to 85 % of the moderate to large proton events in the four year period could have been predicted from these bursts. The complete microwave spectra of the proton events have also been studied, and have been used to extend the results obtained at 19 GHz to other frequencies, particularly in the 5-20 GHz band. The widely used frequency of 2.8 GHz is not the optimum frequency for this purpose since proton events have a minimum of emission in this region. Most of the radio energy of proton events is at frequencies above 10 GHz. The radio spectra of proton events tend to peak at higher frequencies than most non-proton events, the overall range being 5 to 70 GHz, with a median of 10-12 GHz and a mean of 17 GHz.