H2D+: a light on baryonic dark matter?

Abstract

It has been suggested that the dark halos of galaxies are constituted by cloudlets of cold (< 10 K) H2 and dense (> 107$ cm-3) molecular gas. Such gas is extremely difficult to detect, because the classical tracers of molecular gas, CO and/or dust grains, have very low abundances and their emission is exceedingly weak. For this reason, the cloudlet hypothesis remains so far substantially unproven. In this Letter we propose a new method to probe the presence of cold H2 clouds in galactic halos: the ground transition of ortho-H2D+ at 372 GHz. We discuss why the H2D+ is abundant under the physical conditions appropriate for the cloudlets, and present a chemical model that predicts the H2D+ abundance as function of four key parameters: gas density and metallicity, cosmic ray ionization rate and dust grain size. We conclude that current ground-based instruments might detect the ortho-H2D+ line emitted by the cloudlets halo, and prove, therefore, the existence of large quantities of dark baryonic matter around galaxies.

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