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March 2009 Inference for the dark energy equation of state using Type IA supernova data
Christopher Genovese, Peter Freeman, Larry Wasserman, Robert Nichol, Christopher Miller
Ann. Appl. Stat. 3(1): 144-178 (March 2009). DOI: 10.1214/08-AOAS229


The surprising discovery of an accelerating universe led cosmologists to posit the existence of “dark energy”—a mysterious energy field that permeates the universe. Understanding dark energy has become the central problem of modern cosmology. After describing the scientific background in depth, we formulate the task as a nonlinear inverse problem that expresses the comoving distance function in terms of the dark-energy equation of state. We present two classes of methods for making sharp statistical inferences about the equation of state from observations of Type Ia Supernovae (SNe). First, we derive a technique for testing hypotheses about the equation of state that requires no assumptions about its form and can distinguish among competing theories. Second, we present a framework for computing parametric and nonparametric estimators of the equation of state, with an associated assessment of uncertainty. Using our approach, we evaluate the strength of statistical evidence for various competing models of dark energy. Consistent with current studies, we find that with the available Type Ia SNe data, it is not possible to distinguish statistically among popular dark-energy models, and that, in particular, there is no support in the data for rejecting a cosmological constant. With much more supernova data likely to be available in coming years (e.g., from the DOE/NASA Joint Dark Energy Mission), we address the more interesting question of whether future data sets will have sufficient resolution to distinguish among competing theories.


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Christopher Genovese. Peter Freeman. Larry Wasserman. Robert Nichol. Christopher Miller. "Inference for the dark energy equation of state using Type IA supernova data." Ann. Appl. Stat. 3 (1) 144 - 178, March 2009.


Published: March 2009
First available in Project Euclid: 16 April 2009

zbMATH: 1161.62086
MathSciNet: MR2668703
Digital Object Identifier: 10.1214/08-AOAS229

Keywords: Dark energy , nonlinear inverse problems , nonparametric inference

Rights: Copyright © 2009 Institute of Mathematical Statistics


Vol.3 • No. 1 • March 2009
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