Scalable hierarchical BayeSN inference: investigating dependence of SN Ia host galaxy dust properties on stellar mass and redshift

Grayling, Matthew; Thorp, Stephen; Mandel, Kaisey S; Dhawan, Suhail; Uzsoy, Ana Sofia M; Boyd, Benjamin M; Hayes, Erin E; Ward, Sam M

doi:10.1093/mnras/stae1202

Monthly Notices of the Royal Astronomical Society

2024

DOI: 10.1093/mnras/stae1202

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Scalable hierarchical BayeSN inference: investigating dependence of SN Ia host galaxy dust properties on stellar mass and redshift

Matthew Grayling,

Stephen Thorp,

Kaisey S Mandel

et al.

Abstract: We apply the hierarchical probabilistic SED model BayeSN to analyse a sample of 475 SNe Ia (0.015 < z < 0.4) from Foundation, DES3YR and PS1MD to investigate the properties of dust in their host galaxies. We jointly infer the dust law RV population distributions at the SED level in high- and low-mass galaxies simultaneously with dust-independent, intrinsic differences. We find an intrinsic mass step of −0.049 ± 0.016 mag, at a significance of 3.1σ, when allowing for a constant intrinsic, achromat… Show more

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2024

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Cited by 4 publications

References 117 publications

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Consistent extinction model for type Ia supernovae in Cepheid-based calibration galaxies and its impact on H0

Wojtak,

Hjorth

2024

Monthly Notices of the Royal Astronomical Society

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The most recent SH0ES measurement of the Hubble constant employs corrections of type Ia supernova magnitudes due to extinction in their host galaxies. These corrections are estimated using a probabilistic model which is trained on Hubble flow (z > 0.03) supernovae and extrapolated to the calibration galaxies (those with observed Cepheids), despite the fact that the latter are selected based on criteria favouring disky and dust-rich systems. We show that this standard approach underestimates the brightness of reddened supernovae in the high stellar-mass (M⋆ > 1010 M⊙) calibration galaxies. This can be traced back to the fact that for these galaxies, a low total-to-selective extinction coefficient (RB ∼ 3) is assumed, while for the low stellar-mass analogues a more standard RB ∼ 4 is adopted. We propose a minimalistic modification of the extinction model in the calibration galaxies in order to alleviate this systematic effect. The modification is twofold and it involves: (i) the same, Milky Way-like distribution of RB (with mean RB of 4.3 – consistent with the extinction curve used for colour corrections of the Cepheids – and scatter 0.4) and (ii) a modified shape of the E(B − V) reddening distribution while keeping the same effective slope of the supernova peak magnitude-colour relation and the same mean E(B − V) reddening as measured for supernovae in the Hubble flow. We show that this new approach yields a significantly better fit (ΔBIC = −11) to the calibration data and results in a lower value of H0. Our result is H0 = 70.5 ± 1 km s−1 Mpc−1 implying a reduction of the Hubble constant tension from 5.2σ to 2.8σ.

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Consistent extinction model for type Ia supernovae in Cepheid-based calibration galaxies and its impact on H0

Wojtak,

Hjorth

2024

Monthly Notices of the Royal Astronomical Society

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Variational inference for acceleration of SN Ia photometric distance estimation with BayeSN

Uzsoy,

Thorp,

Grayling

et al. 2024

Monthly Notices of the Royal Astronomical Society

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Type Ia supernovae (SNe Ia) are standarizable candles whose observed light curves can be used to infer their distances, which can in turn be used in cosmological analyses. As the quantity of observed SNe Ia grows with current and upcoming surveys, increasingly scalable analyses are necessary to take full advantage of these new datasets for precise estimation of cosmological parameters. Bayesian inference methods enable fitting SN Ia light curves with robust uncertainty quantification, but traditional posterior sampling using Markov Chain Monte Carlo (MCMC) is computationally expensive. We present an implementation of variational inference (VI) to accelerate the fitting of SN Ia light curves using the BayeSN hierarchical Bayesian model for time-varying SN Ia spectral energy distributions (SEDs). We demonstrate and evaluate its performance on both simulated light curves and data from the Foundation Supernova Survey with two different forms of surrogate posterior – a multivariate normal and a custom multivariate zero-lower-truncated normal distribution – and compare them with the Laplace Approximation and full MCMC analysis. To validate of our variational approximation, we calculate the pareto-smoothed importance sampling (PSIS) diagnostic, and perform variational simulation-based calibration (VSBC). The VI approximation achieves similar results to MCMC but with an order-of-magnitude speedup for the inference of the photometric distance moduli. Overall, we show that VI is a promising method for scalable parameter inference that enables analysis of larger datasets for precision cosmology.

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Hawai‘i Supernova Flows: a peculiar velocity survey using over a Thousand Supernovae in the near-infrared

Do,

Shappee,

Tonry

et al. 2024

Monthly Notices of the Royal Astronomical Society

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We introduce the Hawai‘i Supernova Flows project and present summary statistics of the first 1,217 astronomical transients observed, 668 of which are spectroscopically classified Type Ia Supernovae (SNe Ia). Our project is designed to obtain systematics-limited distances to SNe Ia while consuming minimal dedicated observational resources. To date, we have performed almost 5,000 near-infrared (NIR) observations of astronomical transients and have obtained spectra for over 200 host galaxies lacking published spectroscopic redshifts. In this survey paper we describe the methodology used to select targets, collect/reduce data, calculate distances, and perform quality cuts. We compare our methods to those used in similar studies, finding general agreement or mild improvement. Our summary statistics include various parametrizations of dispersion in the Hubble diagrams produced using fits to several commonly used SN Ia models. We find the lowest dispersions using the SNooPy package’s EBV_model2, with a root mean square (RMS) deviation of 0.165 mag and a normalized median absolute deviation (NMAD) of 0.123 mag. The full utility of the Hawai‘i Supernova Flows data set far exceeds the analyses presented in this paper. Our photometry will provide a valuable test bed for models of SN Ia incorporating NIR data. Differential cosmological studies comparing optical samples and combined optical and NIR samples will have increased leverage for constraining chromatic effects like dust extinction. We invite the community to explore our data by making the light curves, fits, and host galaxy redshifts publicly accessible.

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Scalable hierarchical BayeSN inference: investigating dependence of SN Ia host galaxy dust properties on stellar mass and redshift

Cited by 4 publications

References 117 publications

Consistent extinction model for type Ia supernovae in Cepheid-based calibration galaxies and its impact on H0

Consistent extinction model for type Ia supernovae in Cepheid-based calibration galaxies and its impact on H0

Variational inference for acceleration of SN Ia photometric distance estimation with BayeSN

Hawai‘i Supernova Flows: a peculiar velocity survey using over a Thousand Supernovae in the near-infrared

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