Momentum transfer by an internal source of ionizing radiation: an important feedback process during galaxy formation?

Abstract

The role of momentum transfer ('radiation pressure') due to an internal source of ionizing radiation for the formation of baryonic structures is investigated. Fully ionized, self-gravitating gaseous objects can be radiation-pressure-supported on a characteristic length scale D_rp∼100 pc-3 kpc. On smaller scales momentum transfer due to ionizing radiation will be the dominant force, and for spherical collapsing objects of mass ≲10¹⁰ M_⊙ a complete bounce is possible. A population of massive stars and/or accretion on to a central compact object are natural sources of ionizing radiation in newly forming baryonic structures. Radiation pressure is therefore likely to play an important role in the dynamical and thermal evolution of the intergalactic medium and the mass-to-light ratios of small galaxies. The effect will be especially important for hierarchical cosmogonies where galactic structures build up by merging of smaller objects. Radiation pressure due to ionizing radiation might, furthermore, be responsible for substructures of size D_rp in the stellar component of large galaxies.