Interplanetary magnetic field control of dayside ion conics

Abstract

Ion conics are frequently observed around the dayside cusp/cleft region and are supposed to be energized by an input of energy from the dayside magnetospheric boundary region. We examined possible influence of the interplanetary magnetic field (IMF) on dayside ion conics observed by the polar‐orbiting Exos D (Akebono) satellite. We found the effect of B_y and B_z components on the energy flux and occurrence frequency of ion conics. Ion conics are more energetic and more frequently observed when B_z is negative and the magnitude of B_y is large. The B_z effect is likely to be attributed to the change in energy input to the ion energization region. The B_y effect may be also due to the increased energy input to the cusp/cleft region during large B_y period, suggesting that a reconnection‐related energy input is responsible for dayside ion energization. An alternative interpretation of the B_y effect is that the convection pattern may affect the residence time in the ion energization region and therefore the efficiency of ion energization. We found that the polarity of B_y controls asymmetrical magnetic local time distribution of ion conics around the local noon, which is attributed to a possible effect of convection pattern on dayside ion energization.