The 21cm Signature of Early Relic Regions

Abstract

We calculate the spin temperature and 21 cm brightness of early regions around the first stars. We use outputs from cosmological radiation-hydrodynamics simulations of the formation and evolution of early regions. In the pre-reionization era, regions around massive primordial stars have diameters of a few kpc. The gas within the regions is almost fully ionized, but begins recombining after the central stars die off. The relic regions are then seen as bright emission sources in hydrogen 21 cm. We make brightness temperature maps of the regions, accounting for radiative coupling with Lyman-α photons in a simplified manner. The spin temperature in the relic region is close to the gas kinetic temperature, generally several hundred to several thousand degrees. We show that the relic region can be as bright as δ T b 100 mK in differential temperature against the cosmic microwave background for an angular resolution of sub-arcseconds. While individual early patches will not be identified by currently planned radio telescopes, the collective fluctuations from early regions might imprint signatures in the 21 cm background.