Princeton University/Institute for Advanced Study Early Universe/Cosmology Lunch Discussion

Organizers are David Spergel, Princeton University, and Matias Zaldarriaga, Institute for Advanced Study. The lunch will be held at either Princeton University or the Institute for Advance Study. Check the calendar for the meeting location. This week's meeting is at the Institute for Advanced Study. Attendees can bring their own lunch or stop at the IAS Dining Hall. The West Seminar room is in a building which is a short walk from the main dining area. ABSTRACT: A generic prediction of string theory is the existence of many axion fields. It has recently been argued that many of these fields should be light and, like the well known QCD axion, lead to observable cosmological consequences. In this paper we study in detail the effect of the so-called string axiverse on large scale structure, focusing on the morphology and evolution of density perturbations, anisotropies in the cosmic microwave background and weak gravitational lensing of distant galaxies. We quantify specific effects that will arise from the presence of the axionic fields and highlight possible degeneracies that may arise in the presence of massive neutrinos. We take particular care understanding the different physical effects and scales that come into play. We then forecast how the string axiverse may be constrained and show that with a combination of different observations, it should be possible to detect a fraction of ultralight axions to dark matter of a few percent. I focus on the lightest axions, with mass <10^{-28}eV, and present a exact numerical study on their cosmological effects. I will briefly introduce axions in string theory and their motivation as an ultra-light dark matter ingredient based in part on the observance of excess relativistic energy density and neutrino masses. I will then review their known effects on large scale structure, before presenting new work on precision observables and forecasts for a Euclid-style mission. I may also review some other work on an extension of this model to include coupling to other moduli fields.