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Caltech

TAPIR Seminar

Friday, October 7, 2016
2:00pm to 3:00pm
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Cahill 370
Complete Reionization Constraints from Planck 2015 Polarization
Chen He Heinrich, KICP Graduate Student, University of Chicago,

We conduct an analysis of the Planck 2015 data that is complete in reionization observables from the large angle polarization E-mode spectrum in the redshift range 6<z<30. Based on 5 principal components, all of which are constrained by the data, this single analysis can be used to infer constraints on any model for reionization in the same range; we develop an effective likelihood approach for applying these constraints to models. By allowing for an arbitrary ionization history, this technique tests the robustness of inferences on the total optical depth from the usual step-like transition assumption, which is important for the interpretation of many other cosmological parameters such as the dark energy and neutrino mass. The Planck 2015 data not only allow a high redshift z>15 component to the optical depth but prefer it at the 2σ level. This preference is associated with excess power in the multipole range 1020 and may indicate high redshift ionization sources or unaccounted for systematics and foregrounds in the 2015 data.

For more information, please contact Sheri Stoll by phone at 626-395-6608 or by email at [email protected] or visit TAPIR at Caltech.