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A New Probe of the Distribution of Dark Matter in Galaxies

The scale radius of dark matter halos is a critical parameter for specifying the density distribution of dark matter, and is therefore a fundamental parameter for modeling galaxies. We develop here a novel, observationally motivated probe to quantitatively infer its value. We demonstrate that disturbances in the extended atomic hydrogen gas disks of galaxies can be used to infer the scale radius of dark matter halos. Our primary metric is the phase of the $m=1$ mode of the disturbance in the outskirts of the gas disk, which we take to be produced by a tidal interaction. We apply the method to the Whirlpool Galaxy, which has an optically visible satellite. We explore potential degeneracies due to orbital inclination and initial conditions and find our results to be relatively insensitive to these considerations. Our method of tracing the dark potential well through observed disturbances in outer gas disks is complementary to gravitational lensing.

preprint2011arXivOpen access
Sukanya Chakrabarti
astro-ph.COastro-ph.GA
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Sukanya Chakrabarti

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