The Astrophysical Journal (Jan 2024)

Evaluating the Consistency of Cosmological Distances Using Supernova Siblings in the Near-infrared

  • Arianna M. Dwomoh,
  • Erik R. Peterson,
  • Daniel Scolnic,
  • Chris Ashall,
  • James M. DerKacy,
  • Aaron Do,
  • Joel Johansson,
  • David O. Jones,
  • Adam G. Riess,
  • Benjamin J. Shappee

DOI
https://doi.org/10.3847/1538-4357/ad1ff5
Journal volume & issue
Vol. 965, no. 1
p. 90

Abstract

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The study of supernova (SN) siblings, supernovae with the same host galaxy, is an important avenue for understanding and measuring the properties of Type Ia SN Ia light curves (LCs). Thus far, sibling analyses have mainly focused on optical LC data. Considering that LCs in the near-infrared (NIR) are expected to be better standard candles than those in the optical, we carry out the first analysis compiling SN siblings with only NIR data. We perform an extensive literature search of all SN siblings and find six sets of siblings with published NIR photometry. We calibrate each set of siblings ensuring they are on homogeneous photometric systems, fit the LCs with the SALT3-NIR and SNooPy models, and find median absolute differences in μ values between siblings of 0.248 and 0.186 mag, respectively. To evaluate the significance of these differences beyond measurement noise, we run simulations that mimic these LCs and provide an estimate for uncertainty on these median absolute differences of ∼0.052 mag, and we find that, statistically, our analysis rules out the nonexistence of intrinsic scatter in the NIR at the 99% level. When comparing the same sets of SN siblings, we observe a median absolute difference in μ values between siblings of 0.177 mag when using optical data alone as compared to 0.186 mag when using NIR data alone. It is unclear if these results may be due to limited statistics or poor quality NIR data, all of which will be improved with the Nancy Grace Roman Space Telescope.

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