Filament formation in wind-cloud interactions - I. Spherical clouds in uniform magnetic fields
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Banda-Barrigan, Wladimir
Parkin, Elliott
Federrath, Christoph
Crocker, Roland
Bicknell, Geoffrey
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Blackwell Publishing Ltd
Abstract
Filamentary structures are ubiquitous in the interstellar medium, yet their formation, internal
structure, and longevity have not been studied in detail. We report the results from a
comprehensive numerical study that investigates the characteristics, formation, and evolution
of filaments arising from magnetohydrodynamic interactions between supersonic winds and
dense clouds. Here, we improve on previous simulations by utilizing sharper density contrasts
and higher numerical resolutions. By following multiple density tracers, we find that material
in the envelopes of the clouds is removed and deposited downstream to form filamentary
tails, while the cores of the clouds serve as footpoints and late-stage outer layers of these
tails. Aspect ratios 12, subsonic velocity dispersions ∼0.1–0.3 of the wind sound speed,
and magnetic field amplifications ∼100 are found to be characteristic of these filaments. We
also report the effects of different magnetic field strengths and orientations. The magnetic
field strength regulates vorticity production: sinuous filamentary towers arise in non-magnetic
environments, while strong magnetic fields inhibit small-scale perturbations at boundary layers
making tails less turbulent. Magnetic field components aligned with the direction of the
flow favour the formation of pressure-confined flux ropes inside the tails, whilst transverse
components tend to form current sheets. Softening the equation of state to nearly isothermal
leads to suppression of dynamical instabilities and further collimation of the tail. Towards the
final stages of the evolution, we find that small cloudlets and distorted filaments survive the
break-up of the clouds and become entrained in the winds, reaching velocities ∼0.1 of the
wind speed.
Key words: MHD – methods: numerical – stars: winds, outflows – ISM: clouds – ISM: mag
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Monthly Notices of the Royal Astronomical Society
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