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The High-Z Supernova Search: Measuring Cosmic Deceleration and Global Cur vature of the Universe Using Type Ia Supernovae

3 Pith papers cite this work. Polarity classification is still indexing.

3 Pith papers citing it
abstract

The High-Z Supernova Search is an international collaboration to discover and monitor type Ia supernovae (SN Ia) at $z > 0.2$ with the aim of measuring cosmic deceleration and global curvature. Our collaboration has pursued a basic understanding of supernovae in the nearby Universe, discovering and observing a large sample of objects, and developing methods to measure accurate distances with SN Ia. This paper describes the extension of this program to $z \geq 0.2$, outlining our search techniques and follow-up program. We have devised high-throughput filters which provide accurate two-color restframe $B$ and $V$ light curves of SN Ia, enabling us to produce precise, extinction-corrected luminosity distances in the range $0.25 < z < 0.55$. Sources of systematic error from K-corrections, extinction, selection effects, and evolution are investigated, and their effects estimated. We present photometric and spectral observations of SN 1995K, our program's first supernova, and use the data to obtain a precise measurement of the luminosity distance to the $z=0.479$ host galaxy. This object, when combined with a nearby sample of SN, yields an estimate for the matter density of the Universe of $\Omega_M = -0.2^{+1.0}_{-0.8}$ if $\Omega_\Lambda = 0$. For a spatially flat universe composed of normal matter and a cosmological constant, we find $\Omega_M = 0.4^{+0.5}_{-0.4}$, $\Omega_\Lambda = 0.6^{+0.4}_{-0.5}$. We demonstrate that with a sample of $\sim 30$ objects, we should be able to determine relative luminosity distances over the range $0 < z< 0.5$ with sufficient precision to measure $\Omega_M$ with an uncertainty of $\pm 0.2$.

years

2026 3

verdicts

UNVERDICTED 3

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representative citing papers

Generalized Mass-to-Horizon Entropy and Horizon Thermodynamics

gr-qc · 2026-05-12 · unverdicted · novelty 3.0

A two-parameter extension of Bekenstein entropy is applied to derive the Friedmann equations and confirm thermodynamic consistency for an accelerating universe via entropy balance and maximization.

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Showing 2 of 2 citing papers after filters.

  • Generalizing the interacting dilatonic ghost condensate as a dark energy model gr-qc · 2026-06-26 · unverdicted · none · ref 4 · internal anchor

    Generalizes the interacting dilatonic ghost condensate dark energy model, performs phase-space analysis for non-interacting and two interacting cases, and reports parameter constraints from Cosmic Chronometers, PantheonPlus, and DESI data for n=3 and n=5.

  • Generalized Mass-to-Horizon Entropy and Horizon Thermodynamics gr-qc · 2026-05-12 · unverdicted · none · ref 56 · internal anchor

    A two-parameter extension of Bekenstein entropy is applied to derive the Friedmann equations and confirm thermodynamic consistency for an accelerating universe via entropy balance and maximization.