Primordial helium recombination III: Thomson scattering, isotope shifts, and cumulative results

Abstract

Upcoming precision measurements of the temperature anisotropy of the cosmic microwave background (CMB) at high multipoles will need to be complemented by a more complete understanding of recombination, which determines the damping of anisotropies on these scales. This is the third in a series of papers describing an accurate theory of HeI and HeII recombination. Here we describe the effect of Thomson scattering, the 3He isotope shift, the contribution of rare decays, collisional processes, and peculiar motion. These effects are found to be negligible: Thomson and 3He scattering modify the free electron fraction xe at the level of several × 10-4. The uncertainty in the 23Po-11S rate is significant, and for conservative estimates gives uncertainties in xe of order 10-3. We describe several convergence tests for the atomic level code and its inputs, derive an overall C error budget, and relate shifts in xe(z) to the changes in C, which are at the level of 0.5% at =3000. Finally, we summarize the main corrections developed thus far. The remaining uncertainty from known effects is 0.3% in xe.

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