MMS Observation of Two‐Step Electron Acceleration at Earth's Bow Shock.

We use the Magnetospheric Multiscale mission to observe a bi‐directional electron acceleration event in the electron foreshock upstream of Earth's quasi‐perpendicular collisionless bow shock. The acceleration region is associated with a decrease in wave activity, inconsistent with common electron acceleration mechanisms such as Diffusive Shock Acceleration and Stochastic Shock Drift Acceleration. We propose a two‐step acceleration process where an electron field‐aligned beam acts as a seed population further accelerated by a shrinking magnetic bottle process, with the shock acting as the magnetic mirror(s). Plain Language Summary: Collisionless shock waves are believed to be an important source of accelerating particles up to cosmic ray energies throughout our universe. In this letter, we use spacecraft data from the Magnetospheric Multiscale mission to study an energetic electron event observed at Earth's bow shock. The event displays inconsistencies with common electron acceleration mechanisms previously studied at collisionless shocks. We propose a two‐step acceleration mechanism, combining two known mechanisms for charged particle acceleration, and provide observational evidence supporting our theory. We conclude that plasma wave‐particle interactions at the shock play a crucial role in the energization of these electrons. Key Points: Using Magnetospheric Multiscale data we observe bi‐directional energetic electrons at Earth's collisionless bow shockThe observations are inconsistent with common electron acceleration mechanisms at shocksWe propose a two‐step acceleration process where a field‐aligned electron beam is further accelerated by a shrinking magnetic bottle [ABSTRACT FROM AUTHOR]