Reconstructing the Cosmic Equation of State from Supernova distances

(2) Landau Institute; 3) ((1) IUCAA; (3) MPIfA; A. A. Starobinsky (2; Garching); Moscow; Pune; Somak Raychaudhury (1); Tarun Deep Saini (1); Varun Sahni (1)

arxiv: astro-ph/9910231 · v4 · submitted 1999-10-13 · 🌌 astro-ph · gr-qc· hep-ph

Reconstructing the Cosmic Equation of State from Supernova distances

Tarun Deep Saini (1) , Somak Raychaudhury (1) , Varun Sahni (1) , A. A. Starobinsky (2 , 3) ((1) IUCAA , Pune , (2) Landau Institute , Moscow

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(3) MPIfA Garching)

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classification 🌌 astro-ph gr-qchep-ph

keywords distancesequationformmethodresultsstatesupernovaeaccelerating

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Observations of high-redshift supernovae indicate that the universe is accelerating. Here we present a {\em model-independent} method for estimating the form of the potential $V(\phi)$ of the scalar field driving this acceleration, and the associated equation of state $w_\phi$. Our method is based on a versatile analytical form for the luminosity distance $D_L$, optimized to fit observed distances to distant supernovae and differentiated to yield $V(\phi)$ and $w_\phi$. Our results favor $w_\phi\simeq -1$ at the present epoch, steadily increasing with redshift. A cosmological constant is consistent with our results.

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Reconstructing the Cosmic Equation of State from Supernova distances

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