The role of magnetic fields in disc galaxies: spiral arm instability

Abstract

Context. Regularly-spaced, star-forming regions along the spiral arms of nearby galaxies provide insight into the early stages and initial conditions of star formation. The regular separation of these star-forming regions suggests spiral arm instability as their origin. Aims. We explore the effects of magnetic fields on the spiral arm instability. Methods. We use three-dimensional global magnetohydrodynamical simulations of isolated spiral galaxies, comparing three different initial plasma β values (ratios of thermal to magnetic pressure) of β=∞, 50, and 10. We perform Fourier analysis to calculate the separation of the over-dense regions formed from the spiral instability. We then compare the separations with observations. Results. We find that the spiral arms in the hydro case (β = ∞) are unstable, with the fragments initially connected by gas streams, reminiscent of Kelvin-Helmholtz instability. In the β = 50 case, the spiral arms fragment, but the fragments separate earlier and tend to be elongated in the direction perpendicular to the spiral arms. However, in the β = 10 run the arms are stabilised against fragmentation by magnetic pressure. The spiral arms in the unstable cases fragment into regularly-spaced, over-dense regions. We determine their separation to be 0.5 kpc in the hydro and 0.65 kpc in the β = 50 case, both in agreement with the observations of nearby galaxies. We find a smaller median characteristic wavelength of the over-densities to be 0.73+0.31-0.36 kpc in the hydro case, compared to 0.98+0.49-0.46 kpc in the β = 50 case. Moreover, we find a higher growth rate of the over-densities in the β = 50 run compared to the hydro run. We observe magnetic hills and valleys along the fragmented arms in the β = 50 run, which is characteristic of the Parker instability.

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