Extremely elevated ion temperatures observed with the Poker Flat and Resolute Bay incoherent scatter radars in the E and F regions of the polar ionosphere are discussed. Our observations include one-dimensional, line-of-sight ion temperatures (T-i,T-1d) that at times can rise to up to similar to 8000 degrees K. While examining the accuracy of the derived temperatures is difficult due to the several potential sources of error and uncertainty, we find that at altitudes of similar to 130-250km the line-of-sight ion temperatures obtained at relatively small aspect angles (for instance, at 22.5 degrees away from the magnetic field direction) are below the expected values for the average or three-dimensional ion temperatures (T-i). We find that this difference matches well with the theoretical expectation from anisotropic ion velocity distributions that emerge from polarization elastic scattering collisions between NO+ and N-2. These results are therefore the clearest detection of anisotropic ion velocity distributions with the Poker Flat Incoherent Scatter Radar and Resolute Bay Incoherent Scatter Radar facilities. Moreover, at higher altitudes (>similar to 300km), where the resonant charge exchange collisions prevail, and for a very high ion temperature event (T-i similar to 8000 degrees K), we observe that the incoherent scatter radar (ISR) spectra obtained at large aspect angles (e.g., 55 degrees) look like those expected from non-Maxwellian plasma. At similar altitudes, the measured one-dimensional temperatures at an aspect angle of 22.5 degrees are found to exceed the expected values from the frictional heating and resonant charge exchange collisions by about 1000 degrees K. A portion of this offset is thought to reflect the role of Coulomb collisions.

• 出版日期2017-7
• 单位Saskatoon; Saskatchewan