One percent determination of the primordial deuterium abundance

Ryan Cooke (1); Max Pettini (2,3); Charles C. Steidel (4) ((1) Centre; for Extragalactic Astronomy; Durham University; (2) Institute of Astronomy,; University of Cambridge; (3) Kavli Institute for Cosmology; University of; Cambridge; (4) California Institute of Technology)

arXiv:1710.11129·astro-ph.CO·March 28, 2018

One percent determination of the primordial deuterium abundance

Ryan Cooke (1), Max Pettini (2,3), Charles C. Steidel (4) ((1) Centre, for Extragalactic Astronomy, Durham University, (2) Institute of Astronomy,, University of Cambridge, (3) Kavli Institute for Cosmology, University of, Cambridge, (4) California Institute of Technology)

PDF

TL;DR

This paper refines the measurement of primordial deuterium abundance using a low-metallicity absorption system, achieving a one percent precision and confirming consistency with cosmological models.

Contribution

It provides a highly precise measurement of primordial deuterium abundance from a low-metallicity system, improving previous estimates by a factor of 3.5 and confirming agreement with Planck CMB data.

Findings

01

Primordial deuterium abundance determined as (2.527±0.030)×10^-5.

02

Measurement precision improved by a factor of 3.5 over previous studies.

03

Results are consistent with Big Bang nucleosynthesis and Planck CMB data.

Abstract

We report a reanalysis of a near-pristine absorption system, located at a redshift z_abs=2.52564 toward the quasar Q1243+307, based on the combination of archival and new data obtained with the HIRES echelle spectrograph on the Keck telescope. This absorption system, which has an oxygen abundance [O/H]=-2.769+/-0.028 (~1/600 of the Solar abundance), is among the lowest metallicity systems currently known where a precise measurement of the deuterium abundance is afforded. Our detailed analysis of this system concludes, on the basis of eight D I absorption lines, that the deuterium abundance of this gas cloud is log_10(D/H) = -4.622+/-0.015, which is in very good agreement with the results previously reported by Kirkman et al. (2003), but with an improvement on the precision of this single measurement by a factor of ~3.5. Combining this new estimate with our previous sample of six high…

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.