Abnormal Sub-Auroral Ion Drifts (ASAID) Developed in Various Inner-Magnetosphere Configurations at Geomagnetically Quiet Times

Utilizing multi-point observations, we investigate a series of inner-magnetosphere configurations formed at Kp <= 3+ when the magnetosphere-ionosphere (M-I) conjugate Abnormal Sub-Auroral Ion Drifts (ASAID) developed near the plasmapause. We analyze the development of ASAID by adopting the recent theories of (1) fast-time short-circuiting explaining SAID development and (2) Larmor radius effects explaining ASAID development. The earthward ASAID electric field developed (1) by short-circuiting when the reconnection-related earthbound hot ring current (RC) electrons became stopped and ions kept moving earthward and started their usual Larmor rotations, and (2) because of the larger Larmor radius of the hot RC ions creating excess positive charges in the nearby cold-inner-edge plasmasheet plasma and deficit negative charges inside the hot RC region. Respective new findings include the observations of (1a) earthward hot RC ion injections across and near the ASAID channel in the inner magnetosphere and (1b) the localized increase of energetic proton differential fluxes (good proxy for hot RC ions) in the topside ionosphere within the ASAID channel, and (2a) M-I conjugate ASAID and ASAID-SAID series created by their respective single intrusion and repeated intrusions of hot RC ions into the cold plasmasheet plasma. New findings also include (3) the specifications of plasma waves such as Kelvin-Helmholtz surface waves and electromagnetic ion cyclotron (EMIC) waves developed in the inner-magnetosphere during plasmasheet rippling, and (4) the development of multiple ASAID channels in the hot zone impacted by EMIC waves.