TRICE‐2/SuperDARN Observations and Comparison With the Associated MMS Magnetopause Crossing
Two sounding rockets, designated TRICE‐2, were launched on 8 December 2018 into the northern cusp region. The two rockets were designated the high‐ and low‐flyers, respectively, and launched 2 min apart to investigate cusp structures, specifically their spatial or temporal nature. 2 hr prior to the cusp encounter by the TRICE‐2 rockets, the MMS satellites, located in the magnetopause boundary layer, observed switching ion beams under very similar IMF conditions as later observed by TRICE‐2. The observed ion beam switch in the boundary layer defined the location of the primary dayside X‐line. Both, TRICE‐2 and MMS, also observed the signatures of multiple X‐lines at the magnetopause, overlapping ion‐energy dispersions in the cusp and counterstreaming ion beams in the magnetopause boundary layer, respectively. In addition to the TRICE‐2 cusp observations, ionospheric convection patterns from the SuperDARN radar are used to explain the vastly different cusp ion signatures observed by the TRICE‐2 rockets. While the high‐flyer rocket progressed north through the center of the cusp, the low‐flyer rocket drifted off to the east and crossed into the dusk convection cell, traveling perpendicular to the ionospheric convection direction before reaching the poleward oriented section of the convection cell also observed by the high‐flyer counterpart.
Funding
Goddard Space Flight Center. Grant Numbers: NNX15AL08G, NNG04EB99C, 80NSSC19K0849, 80NSSC23K0009, 80NSSC20K0688, 499935Q, 80NSSC18K1379
A Consolidated Grant Proposal for Solar and Planetary Science at the University of Leicester, 2019 - 2022
Science and Technology Facilities Council
Find out more...A multi-instrument exploration of the cusp ionosphere
Natural Environment Research Council
Find out more...History
Author affiliation
College of Science & Engineering Physics & AstronomyVersion
- AM (Accepted Manuscript)
Published in
Journal of Geophysical Research: Space PhysicsVolume
129Issue
5Publisher
American Geophysical Union (AGU)issn
2169-9380eissn
2169-9402Copyright date
2024Available date
2024-05-22Publisher DOI
Language
enPublisher version
Deposited by
Professor Timothy YeomanDeposit date
2024-05-21Rights Retention Statement
- No