The Hubble constant and new discoveries in cosmology

S. H. Suyu; T. Treu; R. D. Blandford; W. L. Freedman; S. Hilbert; C.; Blake; J. Braatz; F. Courbin; J. Dunkley; L. Greenhill; E. Humphreys; S. Jha,; R. Kirshner; K. Y. Lo; L. Macri; B. F. Madore; P. J. Marshall; G. Meylan; J.; Mould; B. Reid; M. Reid; A. Riess; D. Schlegel; V. Scowcroft; L. Verde

arXiv:1202.4459·astro-ph.CO·February 22, 2012·33 cites

The Hubble constant and new discoveries in cosmology

S. H. Suyu, T. Treu, R. D. Blandford, W. L. Freedman, S. Hilbert, C., Blake, J. Braatz, F. Courbin, J. Dunkley, L. Greenhill, E. Humphreys, S. Jha,, R. Kirshner, K. Y. Lo, L. Macri, B. F. Madore, P. J. Marshall, G. Meylan, J., Mould, B. Reid, M. Reid, A. Riess, D. Schlegel

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TL;DR

This paper discusses the importance of precise Hubble constant measurements for cosmology, emphasizing the need for multiple independent methods to achieve 1% accuracy and improve understanding of fundamental physics.

Contribution

It highlights the scientific motivations for refining H_0 measurements and proposes strategies for achieving 1% precision through diverse, independent approaches.

Findings

01

Better H_0 measurements constrain dark energy and curvature.

02

Achieving 1% accuracy is feasible with rigorous error control.

03

Multiple independent methods are essential for reliable results.

Abstract

We report the outcome of a 3-day workshop on the Hubble constant (H_0) that took place during February 6-8 2012 at the Kavli Institute for Particle Astrophysics and Cosmology, on the campus of Stanford University. The participants met to address the following questions. Are there compelling scientific reasons to obtain more precise and more accurate measurements of H_0 than currently available? If there are, how can we achieve this goal? The answers that emerged from the workshop are (1) better measurements of H_0 provide critical independent constraints on dark energy, spatial curvature of the Universe, neutrino physics, and validity of general relativity, (2) a measurement of H_0 to 1% in both precision and accuracy, supported by rigorous error budgets, is within reach for several methods, and (3) multiple paths to independent determinations of H_0 are needed in order to access and…

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Taxonomy

TopicsRelativity and Gravitational Theory · History and Developments in Astronomy · Cosmology and Gravitation Theories