Geophysical Research Letters (Feb 2024)

Dayside Pc2 Waves Associated With Flux Transfer Events in a 3D Hybrid‐Vlasov Simulation

  • F. Tesema,
  • M. Palmroth,
  • L. Turc,
  • H. Zhou,
  • G. Cozzani,
  • M. Alho,
  • Y. Pfau‐Kempf,
  • K. Horaites,
  • I. Zaitsev,
  • M. Grandin,
  • M. Battarbee,
  • U. Ganse,
  • A. Workayehu,
  • J. Suni,
  • K. Papadakis,
  • M. Dubart,
  • V. Tarvus

DOI
https://doi.org/10.1029/2023GL106756
Journal volume & issue
Vol. 51, no. 3
pp. n/a – n/a

Abstract

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Abstract Flux transfer events (FTEs) are transient magnetic flux ropes at Earth's dayside magnetopause formed due to magnetic reconnection. As they move across the magnetopause surface, they can generate disturbances in the ultralow frequency (ULF) range, which then propagate into the magnetosphere. This study provides evidence of ULF waves in the Pc2 wave frequency range (>0.1 Hz) caused by FTEs during dayside reconnection using a global 3D hybrid‐Vlasov simulation (Vlasiator). These waves resulted from FTE formation and propagation at the magnetopause are particularly associated with large, rapidly moving FTEs. The wave power is stronger in the morning than afternoon, showing local time asymmetry. In the pre and postnoon equatorial regions, significant poloidal and toroidal components are present alongside the compressional component. The noon sector, with fewer FTEs, has lower wave power and limited magnetospheric propagation.