EGU24-13286, updated on 09 Mar 2024
https://doi.org/10.5194/egusphere-egu24-13286
EGU General Assembly 2024
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Unveiling the Mysteries of Multiscale Magnetotail Dynamics with the CINEMA Constellation

Sasha Ukhorskiy1, Robyn Millan2, and the CINEMA Science Team*
Sasha Ukhorskiy and Robyn Millan and the CINEMA Science Team
  • 1Johans Hopkins University, Applied Physics Laboratory, United States of America (ukhorskiy@jhuapl.edu)
  • 2Dartmouth College, United Staes of America (robyn.millan@dartmouth.edu)
  • *A full list of authors appears at the end of the abstract

Planetary magnetospheres are among the most dynamic and complex systems studied in heliophysics. Driven by their stellar environment and internal sources (e.g., planetary rotation or moons), these vast reservoirs of magnetic energy exhibit a range of dynamical states. Energy circulation (convection) through the system can be steady or explosive, triggering fast plasma flows, global current systems, and spectacular auroral displays. Understanding the response of magnetospheres to their stellar environment is essential for understanding the nature of our home in space, a key heliophysics goal. In Earth’s solar wind–driven magnetosphere, the magnetotail is a key region through which energy is circulated. How the magnetotail maintains steady convection, and when and how it decides to explosively release stored energy, are major unsolved mysteries of space physics. A significant challenge is the intrinsically multiscale nature of magnetotail convection, which is difficult to capture with the sparse measurements available so far. The CINEMA (Cross-Scale INvestigation of Earth’s Magnetotail and Aurora) SMEX Phase A Mission Concept will provide a new cross-scale view of the magnetotail, revealing its large-scale configuration and its influence on dynamics at smaller scales. With a constellation of 9 spacecraft in low-earth orbit all equipped with a full complement of high-resolution energetic particle sensor, auroral imagers, and magnetometers, CINEMA will capture the plasmasheet structure and evolution key for unveiling the mysteries of multiscale magnetospheric convection.  

CINEMA Science Team:

Robyn Millan, Sasha Ukhorskiy, Kelly Cantwell, Bea Gallardo-Lacourt, Claire Gasque, Larry Kepko, Stephen Mende, Slava Merkin, Adam Michael, Tetsuo Motoba, Shin Ohtani, Leonardo Regoli, John Sample, Victor Sergeev, Mike Shumko, Mikhail Sitnov, Tom Sotirelis, Emma Spanswick, Erik Syrstad, Drew Turner, Julie Vievering, Joanne Wu, Eftyhia Zesta

How to cite: Ukhorskiy, S. and Millan, R. and the CINEMA Science Team: Unveiling the Mysteries of Multiscale Magnetotail Dynamics with the CINEMA Constellation, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-13286, https://doi.org/10.5194/egusphere-egu24-13286, 2024.