Shaaban M. Shaaban, M. Lazar, R. A. López, P. H. Yoon, S. Poedts
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Decoding the formation of hammerhead ion populations observed by Parker Solar Probe
In situ observations by the Parker Solar Probe (PSP) have revealed new
properties of the proton velocity distributions, including hammerhead features
that suggest non-isotropic broadening of the beams. The present work proposes a
very plausible explanation for the formation of these populations through the
action of a proton firehose-like instability triggered by the proton beam. The
quasi-linear (QL) theory proposed here shows that the resulting right-hand (RH)
waves have two consequences on the protons: (i) reduce the relative drift
between the beam and the core, but above all, (ii) induce a strong
perpendicular temperature anisotropy, specific to the observed hammerhead ion
strahl. Moreover, the long-run QL results suggest that these hammerhead
distributions are rather transitory states, still subject to relaxation
mechanisms, of which instabilities like the one discussed here are very likely
involved.
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