Modelling the impact of host galaxy dust on type Ia supernova distance measurements

B. Popovic; P. Wiseman; M. Sullivan; M. Smith; S. González-Gaitán; D. Scolnic; J. Duarte; P. Armstrong; J. Asorey; D. Brout; D. Carollo; L. Galbany; K. Glazebrook; L. Kelsey; R. Kessler; C. Lidman; J. Lee; G. F. Lewis; A. Möller; R. C. Nichol; B. O. Sánchez; M. Toy; B. E. Tucker; M. Vincenzi; T. M. C. Abbott; M. Aguena; F. Andrade-Oliveira; D. Bacon; D. Brooks; D. L. Burke; A. Carnero Rosell; J. Carretero; F. J. Castander; L. N. Da Costa; M. E. S. Pereira; T. M. Davis; S. Desai; S. Everett; I. Ferrero; B. Flaugher; J. García-Bellido; E. Gaztanaga; R. A. Gruendl; G. Gutierrez; S. R. Hinton; D. L. Hollowood; K. Honscheid; D. J. James; K. Kuehn; O. Lahav; S. Lee; J. L. Marshall; J. Mena-Fernández; R. Miquel; J. Myles; R. L. C. Ogando; A. Palmese; A. Pieres; A. A. Plazas Malagón; E. Sanchez; D. Sanchez Cid; M. Schubnell; I. Sevilla-Noarbe; E. Suchyta; M. E. C. Swanson; G. Tarle; V. Vikram; N. Weaverdyck; (DES Collaboration)

doi:10.1093/mnras/stae2164

Modelling the impact of host galaxy dust on type Ia supernova distance measurements

B. Popovic, P. Wiseman^*, M. Sullivan, M. Smith, S. González-Gaitán, D. Scolnic, J. Duarte, P. Armstrong, J. Asorey, D. Brout, D. Carollo, L. Galbany, K. Glazebrook, L. Kelsey, R. Kessler, C. Lidman, J. Lee, G. F. Lewis, A. Möller, R. C. NicholB. O. Sánchez, M. Toy, B. E. Tucker, M. Vincenzi, T. M. C. Abbott, M. Aguena, F. Andrade-Oliveira, D. Bacon, D. Brooks, D. L. Burke, A. Carnero Rosell, J. Carretero, F. J. Castander, L. N. Da Costa, M. E. S. Pereira, T. M. Davis, S. Desai, S. Everett, I. Ferrero, B. Flaugher, J. García-Bellido, E. Gaztanaga, R. A. Gruendl, G. Gutierrez, S. R. Hinton, D. L. Hollowood, K. Honscheid, D. J. James, K. Kuehn, O. Lahav, S. Lee, J. L. Marshall, J. Mena-Fernández, R. Miquel, J. Myles, R. L. C. Ogando, A. Palmese, A. Pieres, A. A. Plazas Malagón, E. Sanchez, D. Sanchez Cid, M. Schubnell, I. Sevilla-Noarbe, E. Suchyta, M. E. C. Swanson, G. Tarle, V. Vikram, N. Weaverdyck, (DES Collaboration)

^*Corresponding author for this work

Australian Astronomical Optics

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Abstract

Type Ia Supernovae (SNe Ia) are a critical tool in measuring the accelerating expansion of the universe. Recent efforts to improve these standard candles have focused on incorporating the effects of dust on distance measurements with SNe Ia. In this paper, we use the state-of-the-art Dark Energy Survey 5 year sample to evaluate two different families of dust models: empirical extinction models derived from SNe Ia data and physical attenuation models from the spectra of galaxies. In this work, we use realistic simulations of SNe Ia to forward-model different models of dust and compare summary statistics in order to test different assumptions and impacts on SNe Ia data. Among the SNe Ia-derived models, we find that a logistic function of the total-to-selective extinction best recreates the correlations between supernova distance measurements and host galaxy properties, though an additional 0.02 mag of grey scatter is needed to fully explain the scatter in SNIa brightness in all cases. These empirically derived extinction distributions are highly incompatible with the physical attenuation models from galactic spectral measurements. From these results, we conclude that SNe Ia must either preferentially select extreme ends of galactic dust distributions, or that the characterization of dust along the SNe Ia line-of-sight is incompatible with that of galactic dust distributions.

Original language	English
Pages (from-to)	2263-2276
Number of pages	14
Journal	Monthly Notices of the Royal Astronomical Society
Volume	534
Issue number	3
DOIs	https://doi.org/10.1093/mnras/stae2164
Publication status	Published - Nov 2024

Bibliographical note

Copyright the Author(s) 2024. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

Keywords

cosmology: distance scale
ISM: dust, extinction
supernovae: general

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10.1093/mnras/stae2164Licence: CC BY

Publisher version (open access)Final published version, 1.52 MBLicence: CC BY

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Popovic, B., Wiseman, P., Sullivan, M., Smith, M., González-Gaitán, S., Scolnic, D., Duarte, J., Armstrong, P., Asorey, J., Brout, D., Carollo, D., Galbany, L., Glazebrook, K., Kelsey, L., Kessler, R., Lidman, C., Lee, J., Lewis, G. F., Möller, A., ... (DES Collaboration) (2024). Modelling the impact of host galaxy dust on type Ia supernova distance measurements. Monthly Notices of the Royal Astronomical Society, 534(3), 2263-2276. https://doi.org/10.1093/mnras/stae2164

@article{a0472cfca3384afb9f375a82c3b705be,

title = "Modelling the impact of host galaxy dust on type Ia supernova distance measurements",

abstract = "Type Ia Supernovae (SNe Ia) are a critical tool in measuring the accelerating expansion of the universe. Recent efforts to improve these standard candles have focused on incorporating the effects of dust on distance measurements with SNe Ia. In this paper, we use the state-of-the-art Dark Energy Survey 5 year sample to evaluate two different families of dust models: empirical extinction models derived from SNe Ia data and physical attenuation models from the spectra of galaxies. In this work, we use realistic simulations of SNe Ia to forward-model different models of dust and compare summary statistics in order to test different assumptions and impacts on SNe Ia data. Among the SNe Ia-derived models, we find that a logistic function of the total-to-selective extinction best recreates the correlations between supernova distance measurements and host galaxy properties, though an additional 0.02 mag of grey scatter is needed to fully explain the scatter in SNIa brightness in all cases. These empirically derived extinction distributions are highly incompatible with the physical attenuation models from galactic spectral measurements. From these results, we conclude that SNe Ia must either preferentially select extreme ends of galactic dust distributions, or that the characterization of dust along the SNe Ia line-of-sight is incompatible with that of galactic dust distributions.",

keywords = "cosmology: distance scale, ISM: dust, extinction, supernovae: general",

author = "B. Popovic and P. Wiseman and M. Sullivan and M. Smith and S. Gonz{\'a}lez-Gait{\'a}n and D. Scolnic and J. Duarte and P. Armstrong and J. Asorey and D. Brout and D. Carollo and L. Galbany and K. Glazebrook and L. Kelsey and R. Kessler and C. Lidman and J. Lee and Lewis, \{G. F.\} and A. M{\"o}ller and Nichol, \{R. C.\} and S{\'a}nchez, \{B. O.\} and M. Toy and Tucker, \{B. E.\} and M. Vincenzi and Abbott, \{T. M. C.\} and M. Aguena and F. Andrade-Oliveira and D. Bacon and D. Brooks and Burke, \{D. L.\} and \{Carnero Rosell\}, A. and J. Carretero and Castander, \{F. J.\} and \{Da Costa\}, \{L. N.\} and Pereira, \{M. E. S.\} and Davis, \{T. M.\} and S. Desai and S. Everett and I. Ferrero and B. Flaugher and J. Garc{\'i}a-Bellido and E. Gaztanaga and Gruendl, \{R. A.\} and G. Gutierrez and Hinton, \{S. R.\} and Hollowood, \{D. L.\} and K. Honscheid and James, \{D. J.\} and K. Kuehn and O. Lahav and S. Lee and Marshall, \{J. L.\} and J. Mena-Fern{\'a}ndez and R. Miquel and J. Myles and Ogando, \{R. L. C.\} and A. Palmese and A. Pieres and \{Plazas Malag{\'o}n\}, \{A. A.\} and E. Sanchez and \{Sanchez Cid\}, D. and M. Schubnell and I. Sevilla-Noarbe and E. Suchyta and Swanson, \{M. E. C.\} and G. Tarle and V. Vikram and N. Weaverdyck and \{(DES Collaboration)\}",

note = "Copyright the Author(s) 2024. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.",

year = "2024",

month = nov,

doi = "10.1093/mnras/stae2164",

language = "English",

volume = "534",

pages = "2263--2276",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "Oxford University Press",

number = "3",

}

Popovic, B, Wiseman, P, Sullivan, M, Smith, M, González-Gaitán, S, Scolnic, D, Duarte, J, Armstrong, P, Asorey, J, Brout, D, Carollo, D, Galbany, L, Glazebrook, K, Kelsey, L, Kessler, R, Lidman, C, Lee, J, Lewis, GF, Möller, A, Nichol, RC, Sánchez, BO, Toy, M, Tucker, BE, Vincenzi, M, Abbott, TMC, Aguena, M, Andrade-Oliveira, F, Bacon, D, Brooks, D, Burke, DL, Carnero Rosell, A, Carretero, J, Castander, FJ, Da Costa, LN, Pereira, MES, Davis, TM, Desai, S, Everett, S, Ferrero, I, Flaugher, B, García-Bellido, J, Gaztanaga, E, Gruendl, RA, Gutierrez, G, Hinton, SR, Hollowood, DL, Honscheid, K, James, DJ, Kuehn, K, Lahav, O, Lee, S, Marshall, JL, Mena-Fernández, J, Miquel, R, Myles, J, Ogando, RLC, Palmese, A, Pieres, A, Plazas Malagón, AA, Sanchez, E, Sanchez Cid, D, Schubnell, M, Sevilla-Noarbe, I, Suchyta, E, Swanson, MEC, Tarle, G, Vikram, V, Weaverdyck, N & (DES Collaboration) 2024, 'Modelling the impact of host galaxy dust on type Ia supernova distance measurements', Monthly Notices of the Royal Astronomical Society, vol. 534, no. 3, pp. 2263-2276. https://doi.org/10.1093/mnras/stae2164

TY - JOUR

T1 - Modelling the impact of host galaxy dust on type Ia supernova distance measurements

AU - Popovic, B.

AU - Wiseman, P.

AU - Sullivan, M.

AU - Smith, M.

AU - González-Gaitán, S.

AU - Scolnic, D.

AU - Duarte, J.

AU - Armstrong, P.

AU - Asorey, J.

AU - Brout, D.

AU - Carollo, D.

AU - Galbany, L.

AU - Glazebrook, K.

AU - Kelsey, L.

AU - Kessler, R.

AU - Lidman, C.

AU - Lee, J.

AU - Lewis, G. F.

AU - Möller, A.

AU - Nichol, R. C.

AU - Sánchez, B. O.

AU - Toy, M.

AU - Tucker, B. E.

AU - Vincenzi, M.

AU - Abbott, T. M. C.

AU - Aguena, M.

AU - Andrade-Oliveira, F.

AU - Bacon, D.

AU - Brooks, D.

AU - Burke, D. L.

AU - Carnero Rosell, A.

AU - Carretero, J.

AU - Castander, F. J.

AU - Da Costa, L. N.

AU - Pereira, M. E. S.

AU - Davis, T. M.

AU - Desai, S.

AU - Everett, S.

AU - Ferrero, I.

AU - Flaugher, B.

AU - García-Bellido, J.

AU - Gaztanaga, E.

AU - Gruendl, R. A.

AU - Gutierrez, G.

AU - Hinton, S. R.

AU - Hollowood, D. L.

AU - Honscheid, K.

AU - James, D. J.

AU - Kuehn, K.

AU - Lahav, O.

AU - Lee, S.

AU - Marshall, J. L.

AU - Mena-Fernández, J.

AU - Miquel, R.

AU - Myles, J.

AU - Ogando, R. L. C.

AU - Palmese, A.

AU - Pieres, A.

AU - Plazas Malagón, A. A.

AU - Sanchez, E.

AU - Sanchez Cid, D.

AU - Schubnell, M.

AU - Sevilla-Noarbe, I.

AU - Suchyta, E.

AU - Swanson, M. E. C.

AU - Tarle, G.

AU - Vikram, V.

AU - Weaverdyck, N.

AU - (DES Collaboration)

N1 - Copyright the Author(s) 2024. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

PY - 2024/11

Y1 - 2024/11

N2 - Type Ia Supernovae (SNe Ia) are a critical tool in measuring the accelerating expansion of the universe. Recent efforts to improve these standard candles have focused on incorporating the effects of dust on distance measurements with SNe Ia. In this paper, we use the state-of-the-art Dark Energy Survey 5 year sample to evaluate two different families of dust models: empirical extinction models derived from SNe Ia data and physical attenuation models from the spectra of galaxies. In this work, we use realistic simulations of SNe Ia to forward-model different models of dust and compare summary statistics in order to test different assumptions and impacts on SNe Ia data. Among the SNe Ia-derived models, we find that a logistic function of the total-to-selective extinction best recreates the correlations between supernova distance measurements and host galaxy properties, though an additional 0.02 mag of grey scatter is needed to fully explain the scatter in SNIa brightness in all cases. These empirically derived extinction distributions are highly incompatible with the physical attenuation models from galactic spectral measurements. From these results, we conclude that SNe Ia must either preferentially select extreme ends of galactic dust distributions, or that the characterization of dust along the SNe Ia line-of-sight is incompatible with that of galactic dust distributions.

AB - Type Ia Supernovae (SNe Ia) are a critical tool in measuring the accelerating expansion of the universe. Recent efforts to improve these standard candles have focused on incorporating the effects of dust on distance measurements with SNe Ia. In this paper, we use the state-of-the-art Dark Energy Survey 5 year sample to evaluate two different families of dust models: empirical extinction models derived from SNe Ia data and physical attenuation models from the spectra of galaxies. In this work, we use realistic simulations of SNe Ia to forward-model different models of dust and compare summary statistics in order to test different assumptions and impacts on SNe Ia data. Among the SNe Ia-derived models, we find that a logistic function of the total-to-selective extinction best recreates the correlations between supernova distance measurements and host galaxy properties, though an additional 0.02 mag of grey scatter is needed to fully explain the scatter in SNIa brightness in all cases. These empirically derived extinction distributions are highly incompatible with the physical attenuation models from galactic spectral measurements. From these results, we conclude that SNe Ia must either preferentially select extreme ends of galactic dust distributions, or that the characterization of dust along the SNe Ia line-of-sight is incompatible with that of galactic dust distributions.

KW - cosmology: distance scale

KW - ISM: dust, extinction

KW - supernovae: general

UR - https://www.scopus.com/pages/publications/85207007887

U2 - 10.1093/mnras/stae2164

DO - 10.1093/mnras/stae2164

M3 - Article

AN - SCOPUS:85207007887

SN - 0035-8711

VL - 534

SP - 2263

EP - 2276

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 3

ER -

Modelling the impact of host galaxy dust on type Ia supernova distance measurements

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Keywords

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