Spacecraft Observations of Oblique Electron Beams Breaking the Frozen-In Law During Asymmetric Reconnection
Published in Physical Review Letters, 2018
Recommended citation: J. Egedal, A. Le, W. Daughton, B. A. Wetherton, P. A. Cassak, J. L. Burch, B. Lavraud, J. Dorelli, D. J. Gershman, and L. A. Avanov. Spacecraft observations of oblique electron beams breaking the frozen-in law during asymmetric reconnection. Physical Review Letters. 2018. https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.055101
Fully kinetic simulations of asymmetric magnetic reconnection reveal the presence of magnetic-field-aligned beams of electrons flowing toward the topological magnetic x-line. Within the ~6 de electron-diffusion region, the beams become oblique to the local magnetic field, providing a unique signature of the electron-diffusion region where the electron frozen-in law is broken. The numerical predictions are confirmed by in situ Magnetospheric Multiscale spacecraft observations during asymmetric reconnection at Earth’s dayside magnetopause.