Frontiers in Astronomy and Space Sciences (Sep 2022)

Dependence of the global dayside reconnection rate on interplanetary magnetic field By and the earth’s dipole tilt

  • Jone Peter Reistad,
  • Lauri Holappa,
  • Anders Ohma,
  • Christine Gabrielse,
  • Dibyendu Sur,
  • Dibyendu Sur,
  • Timo Asikainen,
  • Anna DeJong,
  • Anna DeJong

DOI
https://doi.org/10.3389/fspas.2022.973276
Journal volume & issue
Vol. 9

Abstract

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In the recent years, significant attention has been given to the combined effect of Interplanetary Magnetic Field (IMF) duskward component (By) and dipole tilt on the global magnetosphere-ionosphere system response. Numerous studies have pointed out that when the Earth’s magnetic dipole is tilted away from the Sun (negative dipole tilt during northern winter), and IMF has a positive By component, the effects on ionospheric currents, particle precipitation, ionospheric convection, and average size of the auroral oval, is significantly more enhanced, compared to when IMF By is negative. Furthermore, this IMF By polarity effect reverses when Earth’s dipole is tilted in the opposite direction. The underlying cause has remained unclear. Our analysis shows that substorms tend to be stronger during the same IMF By and dipole tilt polarity combination. Taken together with earlier results showing also more frequent substorms during the same conditions, our observations suggests that when IMF By and dipole tilt have opposite signs, there is a more efficient global dayside reconnection rate. We also show analysis of the occurrence frequency of periods of Steady Magnetospheric Convection, substorm onset latitude, and the isotropic boundary of proton precipitation, that are all consistent with our conclusion that the combination of IMF By and dipole tilt polarity affect the global dayside reconnection rate.

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