- Understand coronal conditions under which the shocks form and determine the interplanetary conditions where they evolve.
- Identify interplanetary shocks and characterise their spatial and temporal evolution. Characterize shock structure and determine whether they are locally quasi-perpendicular or quasi-parallel, and study kinetic properties of shock-related waves and turbulence that control ion scattering mean free paths near the shock. [IS only]
- Study heating and dissipation mechanisms at shocks with radial distance.
- Identify mechanisms that heat the thermal solar wind particle populations near shocks and determine their energy partition.
- (To be moved in the activities section: Correlate coronal shocks passage with in situ measurements: METIS visible-light and UV observations of the shock in corona together with RPW measurements of type II radio bursts).
- SWA Triggered Mode, 5 min captures, good radial spread, other instruments: RPW, MAG, EPD.
- 5 min captures
- Good radial spread.