English

Cross Helicity Reversals In Magnetic Switchbacks

Space Physics 2020-02-19 v1 Solar and Stellar Astrophysics

Abstract

We consider 2D joint distributions of normalised residual energy σr(s,t)\sigma_r(s,t) and cross helicity σc(s,t)\sigma_c(s,t) during one day of Parker Solar Probe's (PSP's) first encounter as a function of wavelet scale ss. The broad features of the distributions are similar to previous observations made by HELIOS in slow solar wind, namely well correlated and fairly Alfv\'enic, except for a population with negative cross helicity which is seen at shorter wavelet scales. We show that this population is due to the presence of magnetic switchbacks, brief periods where the magnetic field polarity reverses. Such switchbacks have been observed before, both in HELIOS data and in Ulysses data in the polar solar wind. Their abundance and short timescales as seen by PSP in its first encounter is a new observation, and their precise origin is still unknown. By analysing these MHD invariants as a function of wavelet scale we show that MHD waves do indeed follow the local mean magnetic field through switchbacks, with net Elsasser flux propagating inward during the field reversal, and that they therefore must be local kinks in the magnetic field and not due to small regions of opposite polarity on the surface of the Sun. Such observations are important to keep in mind as computing cross helicity without taking into account the effect of switchbacks may result in spurious underestimation of σc\sigma_c as PSP gets closer to the Sun in later orbits.

Keywords

Cite

@article{arxiv.1912.07823,
  title  = {Cross Helicity Reversals In Magnetic Switchbacks},
  author = {Michael D. McManus and Trevor A. Bowen and Alfred Mallet and Christopher H. K. Chen and Benjamin D. G. Chandran and Stuart D. Bale and Davin E. Larson and Thierry Dudok de Wit and Justin C. Kasper and Michael Stevens and Phyllis Whittlesey and Roberto Livi and Kelly E. Korreck and Keith Goetz and Peter R. Harvey and Marc Pulupa and Robert J. MacDowall and David M. Malaspina and Anthony W. Case and John W. Bonnell},
  journal= {arXiv preprint arXiv:1912.07823},
  year   = {2020}
}
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