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Strong progenitor age bias in supernova cosmology – II. Alignment with DESI BAO and signs of a non-accelerating universe

Junhyuk Son, Young‐Wook Lee, Chul Chung, Seunghyun Park, Hyejeon Cho

2025Monthly Notices of the Royal Astronomical Society10 citationsDOIOpen Access PDF

Abstract

ABSTRACT Supernova (SN) cosmology is based on the key assumption that the luminosity standardization process of Type Ia SNe remains invariant with progenitor age. However, direct and extensive age measurements of SN host galaxies reveal a significant ($5.5 \sigma$) correlation between standardized SN magnitude and progenitor age, which is expected to introduce a serious systematic bias with redshift in SN cosmology. This systematic bias is largely uncorrected by the commonly used mass-step correction, as progenitor age and host galaxy mass evolve very differently with redshift. After correcting for this age bias as a function of redshift, the SN data set aligns more closely with the $w_0w_a$ cold dark matter (CDM) model recently suggested by the Dark Energy Spectroscopic Instrument (DESI) baryon acoustic oscillations (BAO) project from a combined analysis using only BAO and cosmic microwave background (CMB) data. This result is further supported by an evolution-free test that uses only SNe from young, coeval host galaxies across the full redshift range. When the three cosmological probes (SNe, BAO, and CMB) are combined, we find a significantly stronger (${>}9\sigma$) tension with the $\Lambda$CDM model than that reported in the DESI papers, suggesting a time-varying dark energy equation of state in a currently non-accelerating universe.

Topics & Concepts

PhysicsDark energyAstrophysicsCosmologyRedshiftSupernovaGalaxyCosmic microwave backgroundBaryon acoustic oscillationsAstronomyAge of the universeCOSMIC cancer databaseCold dark matterLuminosityDark matterUniverseEquation of stateGalaxy formation and evolutionObservational cosmologyPhysical cosmologyBaryonCosmic background radiationGamma-ray bursts and supernovaeAstronomy and Astrophysical ResearchCosmology and Gravitation Theories