Improved cosmological constraints from new, old, and combined supernova data sets

Authors

M. Kowalski, Humboldt-Universität zu Berlin
D. Rubin, Lawrence Berkeley National Laboratory
G. Aldering, Lawrence Berkeley National Laboratory
R. J. Agostinho, Universidade de Lisboa
A. Amadon, CEA Saclay
R. Amanullah, Space Sciences Laboratory at UC Berkeley
C. Balland, Laboratoire de Physique Nucléaire et de Hautes Energies
K. Barbary, Lawrence Berkeley National Laboratory
G. Blanc, Université de Paris
P. J. Challis, Harvard University
A. Conley, University of Toronto
N. V. Connolly, Hamilton College
R. Covarrubias, Carnegie Observatories
K. S. Dawson, Lawrence Berkeley National Laboratory
S. E. Deustua, American Astronomical Society
R. Ellis, California Institute of Technology
S. Fabbro, Instituto Superior Técnico
V. Fadeyev, University of California, Santa Cruz
X. Fan, The University of Arizona
B. Farris, University of Illinois Urbana-Champaign
G. Folatelli, Carnegie Observatories
B. L. Frye, Dublin City University
G. Garavini, Stockholms universitet
E. L. Gates, University of California, Santa Cruz
L. Germany, Swinburne University of Technology
G. Goldhaber, Lawrence Berkeley National Laboratory
B. Goldman, MPIA
A. Goobar, Stockholms universitet
D. E. Groom, Lawrence Berkeley National Laboratory
J. Haissinski, Laboratoire de l'Accélérateur Linéaire
D. Hardin, Laboratoire de Physique Nucléaire et de Hautes Energies
I. Hook, University of Oxford
S. Kent, Fermi National Accelerator Laboratory

Document Type

Article

Publication Date

10-20-2008

Abstract

We present a new compilation of Type Ia supernovae (SNe Ia), a new data set of low-redshift nearby-Hubble-flow SNe, and new analysis procedures to work with these heterogeneous compilations. This "Union" compilation of 414 SNe Ia, which reduces to 307 SNe after selection cuts, includes the recent large samples of SNe Ia from the Supernova Legacy Survey and ESSENCE Survey, the older data sets, as well as the recently extended data set of distant supernovae observed with the Hubble Space Telescope (HST). A single, consistent, and blind analysis procedure is used for all the various SN Ia subsamples, and a new procedure is implemented that consistently weights the heterogeneous data sets and rejects outliers. We present the latest results from this Union compilation and discuss the cosmological constraints from this new compilation and its combination with other cosmological measurements (CMB and BAO). The constraint we obtain from supernovae on the dark energy density isΩΛ = 0.713-0.029+0.027(stat) -0.039+0.036(sys), for a flat, ACDM universe. Assuming a constant equation of state parameter, w, the combined constraints from SNe, BAO, and CMB give w = -0.969-0.063+0.059(stat) -0.066+0.063(sys). While our results are consistent with a cosmological constant, we obtain only relatively weak constraints on a w that varies with redshift. In particular, the current SN data do not yet significantly constrain w at z > 1. With the addition of our new nearby Hubble-flow SNe Ia, these resulting cosmological constraints are currently the tightest available. © 2008. The American Astronomical Society. All rights reserved.

Publication Source (Journal or Book title)

Astrophysical Journal

First Page

749

Last Page

778

Recommended Citation

Kowalski, M., Rubin, D., Aldering, G., Agostinho, R., Amadon, A., Amanullah, R., Balland, C., Barbary, K., Blanc, G., Challis, P., Conley, A., Connolly, N., Covarrubias, R., Dawson, K., Deustua, S., Ellis, R., Fabbro, S., Fadeyev, V., Fan, X., Farris, B., Folatelli, G., Frye, B., Garavini, G., Gates, E., Germany, L., Goldhaber, G., Goldman, B., Goobar, A., Groom, D., Haissinski, J., Hardin, D., Hook, I., & Kent, S. (2008). Improved cosmological constraints from new, old, and combined supernova data sets. Astrophysical Journal, 686 (2), 749-778. https://doi.org/10.1086/589937