A non-parametric test of variability of Type Ia supernovae luminosity and CDDR

The first observational evidence for cosmic acceleration appeared from Type Ia supernovae (SNe Type Ia) Hubble diagram from two different groups. However, the empirical treatment of SNe Type Ia and their ability to show cosmic acceleration have been the subject of some debate in the literature. In t...

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Published inJournal of cosmology and astroparticle physics Vol. 2022; no. 1; pp. 53 - 78
Main Authors Kumar, Darshan, Rana, Akshay, Jain, Deepak, Mahajan, Shobhit, Mukherjee, Amitabha, Holanda, R.F.L.
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.01.2022
Subjects
Chronometers
Confidence intervals
cosmological parameters from LSS
cosmology of theories beyond the SM
dark energy theory
Diameters
Hubble diagram
Luminosity
Measuring instruments
Nonparametric statistics
Parameterization
Parameters
Red shift
supernova type Ia - standard candles
Supernovae
Universe
Online AccessGet full text
ISSN1475-7516
1475-7516
DOI10.1088/1475-7516/2022/01/053

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Abstract The first observational evidence for cosmic acceleration appeared from Type Ia supernovae (SNe Type Ia) Hubble diagram from two different groups. However, the empirical treatment of SNe Type Ia and their ability to show cosmic acceleration have been the subject of some debate in the literature. In this work we probe the assumption of redshift-independent absolute magnitude (M B ) of SNe along with its correlation with spatial curvature (Ω k0 ) and cosmic distance duality relation (CDDR) parameter (η(z)). This work is divided into two parts. Firstly, we check the validity of CDDR which relates the luminosity distance (d L ) and angular diameter distance (d A ) via redshift. We use the Pantheon SNe Ia dataset combined with the H(z) measurements derived from the cosmic chronometers. Further, four different redshift-dependent parametrizations of the distance duality parameter (η(z)) are used. The CDDR is fairly consistent for almost every parametrization within a 2σ confidence level in both flat and a non-flat universe. In the second part, we assume the validity of CDDR and emphasize on the variability of M_B and its correlation with Ω k0 . We choose four different redshift-dependent parametrizations of M B . The results indicate no evolution of M B within 2σ confidence level. For all parametrizations, the best fit value of Ω k0 indicates a flat universe at 2σ confidence level. However a mild inclination towards a non flat universe is also observed. We have also examined the dependence of the results on the choice of different priors for H 0 .
AbstractList The first observational evidence for cosmic acceleration appeared from Type Ia supernovae (SNe Type Ia) Hubble diagram from two different groups. However, the empirical treatment of SNe Type Ia and their ability to show cosmic acceleration have been the subject of some debate in the literature. In this work we probe the assumption of redshift-independent absolute magnitude (MB) of SNe along with its correlation with spatial curvature (Ωk0) and cosmic distance duality relation (CDDR) parameter (η(z)). This work is divided into two parts. Firstly, we check the validity of CDDR which relates the luminosity distance (dL) and angular diameter distance (dA) via redshift. We use the Pantheon SNe Ia dataset combined with the H(z) measurements derived from the cosmic chronometers. Further, four different redshift-dependent parametrizations of the distance duality parameter (η(z)) are used. The CDDR is fairly consistent for almost every parametrization within a 2σ confidence level in both flat and a non-flat universe. In the second part, we assume the validity of CDDR and emphasize on the variability of M_B and its correlation with Ωk0. We choose four different redshift-dependent parametrizations of MB. The results indicate no evolution of MB within 2σ confidence level. For all parametrizations, the best fit value of Ωk0 indicates a flat universe at 2σ confidence level. However a mild inclination towards a non flat universe is also observed. We have also examined the dependence of the results on the choice of different priors for H0.
The first observational evidence for cosmic acceleration appeared from Type Ia supernovae (SNe Type Ia) Hubble diagram from two different groups. However, the empirical treatment of SNe Type Ia and their ability to show cosmic acceleration have been the subject of some debate in the literature. In this work we probe the assumption of redshift-independent absolute magnitude (M B ) of SNe along with its correlation with spatial curvature (Ω k0 ) and cosmic distance duality relation (CDDR) parameter (η(z)). This work is divided into two parts. Firstly, we check the validity of CDDR which relates the luminosity distance (d L ) and angular diameter distance (d A ) via redshift. We use the Pantheon SNe Ia dataset combined with the H(z) measurements derived from the cosmic chronometers. Further, four different redshift-dependent parametrizations of the distance duality parameter (η(z)) are used. The CDDR is fairly consistent for almost every parametrization within a 2σ confidence level in both flat and a non-flat universe. In the second part, we assume the validity of CDDR and emphasize on the variability of M_B and its correlation with Ω k0 . We choose four different redshift-dependent parametrizations of M B . The results indicate no evolution of M B within 2σ confidence level. For all parametrizations, the best fit value of Ω k0 indicates a flat universe at 2σ confidence level. However a mild inclination towards a non flat universe is also observed. We have also examined the dependence of the results on the choice of different priors for H 0 .
Author Kumar, Darshan
Holanda, R.F.L.
Jain, Deepak
Mahajan, Shobhit
Mukherjee, Amitabha
Rana, Akshay
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SSID ssj0026338
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Snippet The first observational evidence for cosmic acceleration appeared from Type Ia supernovae (SNe Type Ia) Hubble diagram from two different groups. However, the...
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SubjectTerms Chronometers
Confidence intervals
cosmological parameters from LSS
cosmology of theories beyond the SM
dark energy theory
Diameters
Hubble diagram
Luminosity
Measuring instruments
Nonparametric statistics
Parameterization
Parameters
Red shift
supernova type Ia - standard candles
Supernovae
Universe
Title A non-parametric test of variability of Type Ia supernovae luminosity and CDDR
URI https://iopscience.iop.org/article/10.1088/1475-7516/2022/01/053
https://www.proquest.com/docview/2635529957
Volume 2022
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