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The Dark Energy Bedrock All-sky Supernova Program: Cross Calibration, Simulations, and Cosmology Forecasts

dc.contributor.authorAcevedo, Mariaen
dc.contributor.authorSherman, Nora F.en
dc.contributor.authorBrout, Dillonen
dc.contributor.authorCarreres, Bastienen
dc.contributor.authorScolnic, Danielen
dc.contributor.authorPopovic, Brodieen
dc.contributor.authorArmstrong, Patricken
dc.contributor.authorCao, Dingyuanen
dc.contributor.authorChen, Rebecca C.en
dc.contributor.authorDrlica-Wagner, Alexen
dc.contributor.authorFerguson, Peter S.en
dc.contributor.authorLidman, Christopheren
dc.contributor.authorMartin, Baileyen
dc.contributor.authorPeterson, Erik R.en
dc.contributor.authorRiess, Adam G.en
dc.date.accessioned2026-05-06T12:42:05Z
dc.date.available2026-05-06T12:42:05Z
dc.date.issued2026-01-01en
dc.description.abstractType Ia supernovae (SNe Ia) have been essential for probing the nature of dark energy; however, most SN analyses rely on the same low-redshift sample, which may lead to shared systematics. In a companion paper, we introduce the Dark Energy Bedrock All-Sky Supernova (DEBASS) program, which has already collected more than 500 low-redshift SNe Ia on the Dark Energy Camera, and present an initial release of 77 SNe Ia within the Dark Energy Survey (DES) footprint observed between 2021 and 2024. Here, we examine the systematics, including photometric calibration and selection effects. We find agreement at the 10 mmag level among the tertiary standard stars of DEBASS, DES, and Pan-STARRS1. Our simulations reproduce the observed distributions of DEBASS SN light-curve properties, and we measure a bias-corrected Hubble residual scatter of 0.08 mag, which, while small, is found in 10% of our simulations. We compare the DEBASS SN distances to the Foundation sample and find consistency with a median residual offset of 0.016 ± 0.019 mag. Selection effects have negligible impacts on distances, but a different photometric calibration solution shifts the median residual −0.015 ± 0.019 mag, highlighting calibration sensitivity. Using conservative simulations, we forecast that replacing historical low-redshift samples with the full DEBASS sample will improve the statistical uncertainties on dark energy parameters w 0 and w a by 30% and 24%, respectively, enhance the dark energy Figure of Merit by up to 60%, and enable a measurement of fσ 8 at the 25% level.en
dc.description.sponsorshipWe thank the Templeton Foundation for directly supporting this research (N.S., D.B., and D.S.). D.S. is supported by Department of Energy grant DE-SC0010007, the David and Lucile Packard Foundation, and the Templeton Foundation. D.S. and M.A. are supported by the Alfred P. Sloan Foundation. This material is based upon work supported by the National Science Foundation Graduate Research Fellowship under grant No. DGE 2139754. We thank the reader. We also thank Tamara Davis and Chris Lidman for their careful reading of this paper.en
dc.description.statusPeer-revieweden
dc.format.extent11en
dc.identifier.issn0004-637Xen
dc.identifier.otherWOS:001644547600001en
dc.identifier.scopus105033936952en
dc.identifier.urihttps://hdl.handle.net/1885/733808874
dc.language.isoenen
dc.provenanceCC BY 4.0en
dc.rights © 2025. The Author(s). en
dc.sourceAstrophysical Journalen
dc.subjectPantheon plus analysisen
dc.subjectIa supernovaen
dc.subjectData releaseen
dc.subjectIntrinsic scatteren
dc.subjectLight curvesen
dc.subjectSdss-iien
dc.subjectModelen
dc.subjectConstraintsen
dc.subjectParametersen
dc.subjectDependenceen
dc.titleThe Dark Energy Bedrock All-sky Supernova Program: Cross Calibration, Simulations, and Cosmology Forecastsen
dc.typeJournal articleen
dspace.entity.typePublicationen
local.contributor.affiliationAcevedo, Maria; Duke Universityen
local.contributor.affiliationSherman, Nora F.; Boston Universityen
local.contributor.affiliationBrout, Dillon; Boston Universityen
local.contributor.affiliationCarreres, Bastien; Duke Universityen
local.contributor.affiliationScolnic, Daniel; Duke Universityen
local.contributor.affiliationPopovic, Brodie; Universite Claude Bernard Lyon 1en
local.contributor.affiliationArmstrong, Patrick; Research School of Astronomy & Astrophysics, ANU College of Science and Medicine, The Australian National Universityen
local.contributor.affiliationCao, Dingyuan; Australian National Universityen
local.contributor.affiliationChen, Rebecca C.; Duke Universityen
local.contributor.affiliationDrlica-Wagner, Alex; United States Department of Energy (DOE)en
local.contributor.affiliationFerguson, Peter S.; University of Washingtonen
local.contributor.affiliationLidman, Christopher; Research School of Astronomy & Astrophysics, ANU College of Science and Medicine, The Australian National Universityen
local.contributor.affiliationMartin, Bailey; Research School of Astronomy & Astrophysics, ANU College of Science and Medicine, The Australian National Universityen
local.contributor.affiliationPeterson, Erik R.; Duke Universityen
local.contributor.affiliationRiess, Adam G.; Space Telescope Science Instituteen
local.identifier.citationvolume996en
local.identifier.doi10.3847/1538-4357/ae1e78en
local.identifier.purec1236bf3-a577-496f-aa7b-8cb03fe49b69en
local.identifier.urlhttps://www.scopus.com/pages/publications/105033936952en
local.type.statusPublisheden

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