Abstract
The first complete estimation of the compressible energy cascade rate at magnetohydrodynamic (MHD) and subion scales is obtained in Earth’s magnetosheath using Magnetospheric MultiScale spacecraft data and an exact law derived recently for compressible Hall MHD turbulence. A multispacecraft technique is used to compute the velocity and magnetic gradients, and then all the correlation functions involved in the exact relation. It is shown that when the density fluctuations are relatively small, identifies well with its incompressible analog at MHD scales but becomes much larger than at subion scales. For larger density fluctuations, is larger than at every scale with a value significantly higher than for smaller density fluctuations. Our study reveals also that for both small and large density fluctuations, the nonflux terms remain always negligible with respect to the flux terms and that the major contribution to at subion scales comes from the compressible Hall flux.
- Received 9 August 2019
- Revised 12 November 2019
DOI:https://doi.org/10.1103/PhysRevLett.123.245101
© 2019 American Physical Society