Identifying the plasmapause locations for periods under unusually prolonged and weaker solar conditions

  • Cho, Junghee (Department of Astronomy and Space Science, Chungbuk National University) ;
  • Lee, Dae-Young (Department of Astronomy and Space Science, Chungbuk National University) ;
  • Shin, Dae-Kyu (Department of Astronomy and Space Science, Chungbuk National University) ;
  • Kim, Jin-Hee (Department of Astronomy and Space Science, Chungbuk National University) ;
  • Park, Mi-Young (Department of Astronomy and Space Science, Chungbuk National University) ;
  • Kim, Thomas Kyoung-Ho (Department of Astronomy and Space Science, Chungbuk National University)
  • Published : 2013.10.08

Abstract

The Earth's radiation belts consist of an inner belt and an outer belt, being separated by the slot region. It is well known that the variations of the inner edge of the outer belt and the location of the plasmapause (Lpp) are closely related to each other. Different waves exist inside and outside the plasmasphere, playing different roles in the particle dynamics. The plasmapause is well known to be influenced by solar wind conditions and geomagnetic disturbances. Therefore, it is important to precisely determine the location of the plasmapause and develop a prediction scheme. In this study, we identified the location of the plasmapause using the plasma density data from the Time History of Events and Macroscale Interactions During Substorms (THEMIS). The plasmapause is determined by requiring density gradient of a factor of 15 within L-change = 0.5. We statistically determined Lpp as a function of preceding geomagnetic indices. Also, we determined the relations between Lpp and preceding solar wind conditions by estimating correlation coefficients. These relations give us predicting models of Lpp as a function of preceding solar wind parameters and geomagnetic indices. As our database covers a period over the ascending phase from near-sunspot minimum, our statistical results differ somewhat from previous works that cover near-sunspot maximum. Finally, we give some comparative examples obtained from the Van Allen Probes data.

Keywords