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Main Authors: Wang, Qinan, Jones, David O., Pierel, Justin D. R., Siebert, Matthew R., Kenworthy, W. D'Arcy, Kessler, Richard, Dai, Mi, Foley, Ryan J., Fox, Ori D., Gezari, Suvi, Gomez, Sebastian, McGill, Peter, Rest, Armin, Rojas-Bravo, César, Shahbandeh, Melissa, Strolger, Lou
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.25064
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author Wang, Qinan
Jones, David O.
Pierel, Justin D. R.
Siebert, Matthew R.
Kenworthy, W. D'Arcy
Kessler, Richard
Dai, Mi
Foley, Ryan J.
Fox, Ori D.
Gezari, Suvi
Gomez, Sebastian
McGill, Peter
Rest, Armin
Rojas-Bravo, César
Shahbandeh, Melissa
Strolger, Lou
author_facet Wang, Qinan
Jones, David O.
Pierel, Justin D. R.
Siebert, Matthew R.
Kenworthy, W. D'Arcy
Kessler, Richard
Dai, Mi
Foley, Ryan J.
Fox, Ori D.
Gezari, Suvi
Gomez, Sebastian
McGill, Peter
Rest, Armin
Rojas-Bravo, César
Shahbandeh, Melissa
Strolger, Lou
contents Upcoming cosmological surveys will obtain numerous rest-frame ultraviolet (UV) observations of Type Ia supernovae (SNe Ia), yet there is concern about how standardizable SNe Ia are in the UV. In this work, we train a robust optical--UV SED model for SNe Ia (SALT3-UV) with the open-source model-training software $\texttt{SALTshaker}$. We incorporate a spectroscopic UV data sample from HST, including 67 UV spectra from 18 nearby SNe Ia. Unlike previous training spectra, the HST spectra have sufficiently precise calibration that they do not require additional warping to match coincident photometric data. Additionally, while including this new SN Ia sample necessitates incorporating auxiliary photometric data from ZTF and ATLAS that have insufficient calibration for cosmological analyses, the improvements in the calibration of these data is anticipated in the near future. Compared to the previous SALT3-K21 model, the SALT3-UV model shows a significant improvement in the UV down to $2000\mathring{\text{A}}$, with over a threefold improvement in model uncertainty and a more physically accurate continuum and line features. We further evaluate potential redshift evolution in the UV template by separating the UV training sample into low- and high-$z$ subsamples. Our results reveal a non-negligible $\gtrsim 0.05$ mag difference between low- and high-$z$ SALT3-UV models in the $g-$band at $z\gtrsim0.5$ and the $u-$band at $z\gtrsim0.2$. We demonstrate that, if confirmed, such evolution could lead to a few-percent bias in the measurement of $w$ if high-$z$ rest-frame UV data are included in future cosmological surveys such as LSST and $\textit{Roman}$.
format Preprint
id arxiv_https___arxiv_org_abs_2512_25064
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Feeling Blue: Constructing a Robust SALT3 UV Template and Constraining its Redshift Dependency
Wang, Qinan
Jones, David O.
Pierel, Justin D. R.
Siebert, Matthew R.
Kenworthy, W. D'Arcy
Kessler, Richard
Dai, Mi
Foley, Ryan J.
Fox, Ori D.
Gezari, Suvi
Gomez, Sebastian
McGill, Peter
Rest, Armin
Rojas-Bravo, César
Shahbandeh, Melissa
Strolger, Lou
Cosmology and Nongalactic Astrophysics
High Energy Astrophysical Phenomena
Upcoming cosmological surveys will obtain numerous rest-frame ultraviolet (UV) observations of Type Ia supernovae (SNe Ia), yet there is concern about how standardizable SNe Ia are in the UV. In this work, we train a robust optical--UV SED model for SNe Ia (SALT3-UV) with the open-source model-training software $\texttt{SALTshaker}$. We incorporate a spectroscopic UV data sample from HST, including 67 UV spectra from 18 nearby SNe Ia. Unlike previous training spectra, the HST spectra have sufficiently precise calibration that they do not require additional warping to match coincident photometric data. Additionally, while including this new SN Ia sample necessitates incorporating auxiliary photometric data from ZTF and ATLAS that have insufficient calibration for cosmological analyses, the improvements in the calibration of these data is anticipated in the near future. Compared to the previous SALT3-K21 model, the SALT3-UV model shows a significant improvement in the UV down to $2000\mathring{\text{A}}$, with over a threefold improvement in model uncertainty and a more physically accurate continuum and line features. We further evaluate potential redshift evolution in the UV template by separating the UV training sample into low- and high-$z$ subsamples. Our results reveal a non-negligible $\gtrsim 0.05$ mag difference between low- and high-$z$ SALT3-UV models in the $g-$band at $z\gtrsim0.5$ and the $u-$band at $z\gtrsim0.2$. We demonstrate that, if confirmed, such evolution could lead to a few-percent bias in the measurement of $w$ if high-$z$ rest-frame UV data are included in future cosmological surveys such as LSST and $\textit{Roman}$.
title Feeling Blue: Constructing a Robust SALT3 UV Template and Constraining its Redshift Dependency
topic Cosmology and Nongalactic Astrophysics
High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2512.25064