Reconstructing CMB fluctuations and the mean reionization optical depth

P. Daniel Meerburg; Joel Meyers; Kendrick M. Smith; Alexander Van Engelen

doi:10.1103/PhysRevD.95.123538

Reconstructing CMB fluctuations and the mean reionization optical depth

P. Daniel Meerburg, Joel Meyers, Kendrick M. Smith, Alexander Van Engelen

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

The Thomson optical depth from reionization is a limiting factor in measuring the amplitude of primordial fluctuations, and hence in measuring physics that affects the low-redshift amplitude, such as the neutrino masses. Current constraints on the optical depth, based on directly measuring large-scale cosmic microwave background (CMB) polarization, are challenging due to foregrounds and systematic effects. Here, we consider an indirect measurement of large-scale polarization, using observed maps of small-scale polarization together with maps of fields that distort the CMB, such as CMB lensing and patchy reionization. We find that very futuristic CMB surveys will be able to reconstruct large-scale polarization, and thus the mean optical depth, using only measurements on small scales.

Original language	English (US)
Journal	Physical Review D
Volume	95
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevD.95.123538
State	Published - Jun 15 2017
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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title = "Reconstructing CMB fluctuations and the mean reionization optical depth",

abstract = "The Thomson optical depth from reionization is a limiting factor in measuring the amplitude of primordial fluctuations, and hence in measuring physics that affects the low-redshift amplitude, such as the neutrino masses. Current constraints on the optical depth, based on directly measuring large-scale cosmic microwave background (CMB) polarization, are challenging due to foregrounds and systematic effects. Here, we consider an indirect measurement of large-scale polarization, using observed maps of small-scale polarization together with maps of fields that distort the CMB, such as CMB lensing and patchy reionization. We find that very futuristic CMB surveys will be able to reconstruct large-scale polarization, and thus the mean optical depth, using only measurements on small scales.",

author = "Meerburg, {P. Daniel} and Joel Meyers and Smith, {Kendrick M.} and {Van Engelen}, Alexander",

note = "Funding Information: K.M.S. was supported by an NSERC Discovery Grant and an Ontario Early Researcher Award. Publisher Copyright: {\textcopyright} 2017 American Physical Society.",

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AU - Meyers, Joel

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AU - Van Engelen, Alexander

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N2 - The Thomson optical depth from reionization is a limiting factor in measuring the amplitude of primordial fluctuations, and hence in measuring physics that affects the low-redshift amplitude, such as the neutrino masses. Current constraints on the optical depth, based on directly measuring large-scale cosmic microwave background (CMB) polarization, are challenging due to foregrounds and systematic effects. Here, we consider an indirect measurement of large-scale polarization, using observed maps of small-scale polarization together with maps of fields that distort the CMB, such as CMB lensing and patchy reionization. We find that very futuristic CMB surveys will be able to reconstruct large-scale polarization, and thus the mean optical depth, using only measurements on small scales.

AB - The Thomson optical depth from reionization is a limiting factor in measuring the amplitude of primordial fluctuations, and hence in measuring physics that affects the low-redshift amplitude, such as the neutrino masses. Current constraints on the optical depth, based on directly measuring large-scale cosmic microwave background (CMB) polarization, are challenging due to foregrounds and systematic effects. Here, we consider an indirect measurement of large-scale polarization, using observed maps of small-scale polarization together with maps of fields that distort the CMB, such as CMB lensing and patchy reionization. We find that very futuristic CMB surveys will be able to reconstruct large-scale polarization, and thus the mean optical depth, using only measurements on small scales.

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Reconstructing CMB fluctuations and the mean reionization optical depth

Abstract

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