English

A Mechanism for Coronal Hole Jets

Astrophysics 2009-06-25 v1

Abstract

Bald patches are magnetic topologies in which the magnetic field is concave up over part of a photospheric polarity inversion line. A bald patch topology is believed to be the essential ingredient for filament channels and is often found in extrapolations of the observed photospheric field. Using an analytic source-surface model to calculate the magnetic topology of a small bipolar region embedded in a global magnetic dipole field, we demonstrate that although common in closed-field regions close to the solar equator, bald patches are unlikely to occur in the open-field topology of a coronal hole. Our results give rise to the following question: What happens to a bald patch topology when the surrounding field lines open up? This would be the case when a bald patch moves into a coronal hole, or when a coronal hole forms in an area that encompasses a bald patch. Our magnetostatic models show that, in this case, the bald patch topology almost invariably transforms into a null point topology with a spine and a fan. We argue that the time-dependent evolution of this scenario will be very dynamic since the change from a bald patch to null point topology cannot occur via a simple ideal evolution in the corona. We discuss the implications of these findings for recent Hinode XRT observations of coronal hole jets and give an outline of planned time-dependent 3D MHD simulations to fully assess this scenario.

Keywords

Cite

@article{arxiv.0804.3995,
  title  = {A Mechanism for Coronal Hole Jets},
  author = {D. A. N. Mueller and S. K. Antiochos},
  journal= {arXiv preprint arXiv:0804.3995},
  year   = {2009}
}

Comments

8 pages, 9 figures, accepted for publication in Annales Geophysicae 26, 2008

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