Response Time of the Ionosphere to Sign Changes in the Interplanetary Magnetic Field Y-Component

ORAL

Abstract

The solar wind travels from the Sun to the Earth carrying the interplanetary magnetic field (IMF) with it. When the solar wind reaches Earth, the interaction between the IMF and the Earth's magnetic field produces a current system throughout the magnetosphere, which connects to the ionosphere. We have identified events when the y-component of the IMF reverses direction in a short amount of time. We will take these events and use AMPERE to measure how long it takes for the ionosphere to reconfigure. AMPERE processes data from the iridium satellites to create a map of the field-aligned currents in the ionosphere. We will also measure the time of this transition in the ionosphere using Super Dual Auroral Radar Network (SuperDARN). SuperDARN is a network of ground radar that measures charged particle movement in the ionosphere. We will present a comparison of the transition times found using AMPERE with those from SuperDARN.

Authors

  • Christopher Sherrill

    University of Texas at Arlington

  • Arthur Sweeney

    Lee College, Baytown, TX, Lamar University, University of Texas at Arlington, Angelo State University, Rice University, Texas State University, College of William and Mary and National Institute of Aerospace, Nanyang Technological University, China Jiliang University, Baylor University, Louisiana State University, College of William and Mary, University of Oklahoma, University of Texas at Dallas, Univ of Texas, Austin, Texas State Univ-San Marcos, University of Cambridge, University of Texas at Austin, Indiana University - Bloomington, Lamar Univiversity, University of Cincinnati, Deartment of Physics, University of Texas, Arlington, Texas A&M University, College Station, University of Texas - Dallas, University of Dallas

  • Arthur Sweeney

    Lee College, Baytown, TX, Lamar University, University of Texas at Arlington, Angelo State University, Rice University, Texas State University, College of William and Mary and National Institute of Aerospace, Nanyang Technological University, China Jiliang University, Baylor University, Louisiana State University, College of William and Mary, University of Oklahoma, University of Texas at Dallas, Univ of Texas, Austin, Texas State Univ-San Marcos, University of Cambridge, University of Texas at Austin, Indiana University - Bloomington, Lamar Univiversity, University of Cincinnati, Deartment of Physics, University of Texas, Arlington, Texas A&M University, College Station, University of Texas - Dallas, University of Dallas

  • Arthur Sweeney

    Lee College, Baytown, TX, Lamar University, University of Texas at Arlington, Angelo State University, Rice University, Texas State University, College of William and Mary and National Institute of Aerospace, Nanyang Technological University, China Jiliang University, Baylor University, Louisiana State University, College of William and Mary, University of Oklahoma, University of Texas at Dallas, Univ of Texas, Austin, Texas State Univ-San Marcos, University of Cambridge, University of Texas at Austin, Indiana University - Bloomington, Lamar Univiversity, University of Cincinnati, Deartment of Physics, University of Texas, Arlington, Texas A&M University, College Station, University of Texas - Dallas, University of Dallas