ACCELERATION OF INTERSTELLAR PICKUP IONS IN THE DISTURBED SOLAR-WIND OBSERVED ON ULYSSES

Acceleration of interstellar pickup H+ and He+ as well as of solar win d protons and alpha particles has been observed on Ulysses during the passage of a corotating interaction region (CIR) at similar to 4.5 AU. Injection efficiencies for both the high thermal speed interstellar p ickup ions (H+ and He+) and the low thermal speed solar wind ions (Hand He++) are derived using velocity distribution functions of protons , pickup He+ and alpha particles from < 1 to 60 keV/e and of ions prin cipally protons) above similar to 60 keV. The observed spatial variati ons of the few keV and the few hundred keV accelerated pickup protons across the forward shock of the CIR indicate a two stage acceleration mechanism. Thermal ions are first accelerated to speeds of 3 to 4 time s the solar wind speed inside the CIR, presumably by some statistical mechanism, before reaching higher energies by a shock acceleration pro cess. Our results also indicate that (1) the injection efficiencies fo r pickup ions are almost 100 times higher than they are for solar wind ions, (2) pickup H+ and He+ are the two most abundant suprathermal io n species and they carry a large fraction of the particle thermal pres sure, (3) the injection efficiency is highest for protons, lowest for He+, and intermediate for alpha particles, (4) both H+ and He+ have id entical spectral shapes above the cutoff speed for pickup ions, and (5 ) the solar wind frame velocity distribution function of protons has t he form F(w) = F(0)w(-4) for 1 < w < similar to 5, where w is the ion speed divided by the solar wind speed. Above w similar to 5-10 the pro ton spectrum becomes steeper. These results have important implication s concerning acceleration of ions by shocks and CIRs, acceleration of anomalous cosmic rays, and particle dynamics in the outer heliosphere.