An agnostic approach to building empirical Type Ia supernova light curves: evidence for intrinsic chromatic flux variation using nearby supernova factory data

Jared Hand; A. G. Kim; G. Aldering; P. Antilogus; C. Aragon; S. Bailey; C. Baltay; S. Bongard; K. Boone; C. Buton; Y. Copin; S. Dixon; D. Fouchez; E. Gangler; R. Gupta; B. Hayden; W. Hillebrandt; Mitchell Karmen; M. Kowalski; D. Küsters; P. F. Léget; F. Mondon; J. Nordin; R. Pain; E. Pecontal; R. Pereira; S. Perlmutter; K. A. Ponder; D. Rabinowitz; M. Rigault; D. Rubin; K. Runge; C. Saunders; N. Suzuki; C. Tao; S. Taubenberger; R. C. Thomas; M. Vincenzi

doi:10.3847/1538-4357/ad9f32

An agnostic approach to building empirical Type Ia supernova light curves: evidence for intrinsic chromatic flux variation using nearby supernova factory data

Jared Hand, A. G. Kim, G. Aldering, P. Antilogus, C. Aragon, S. Bailey, C. Baltay, S. Bongard, K. Boone, C. Buton, Y. Copin, S. Dixon, D. Fouchez, E. Gangler, R. Gupta, B. Hayden, W. Hillebrandt, Mitchell Karmen, M. Kowalski, D. KüstersP. F. Léget, F. Mondon, J. Nordin, R. Pain, E. Pecontal, R. Pereira, S. Perlmutter, K. A. Ponder, D. Rabinowitz, M. Rigault, D. Rubin, K. Runge, C. Saunders, N. Suzuki, C. Tao, S. Taubenberger, R. C. Thomas, M. Vincenzi

Institute of Cosmology & Gravitation

Research output: Contribution to journal › Article › peer-review

Abstract

We present a new empirical Type Ia supernova (SN Ia) model with three chromatic flux variation templates: one phase dependent and two phase independent. No underlying dust extinction model or patterns of intrinsic variability are assumed. Implemented with Stan and trained using spectrally binned Nearby Supernova Factory spectrophotometry, we examine this model's 2D, phase-independent flux variation space using two motivated basis representations. In both, the first phase-independent template captures variation that appears dust-like, while the second captures a combination of effectively intrinsic variability and second-order dust-like effects. We find that ≈13% of the modeled phase-independent flux variance is not dust-like. Previous empirical SN Ia models either assume an effective dust extinction recipe in their architecture, or only allow for a single mode of phase-independent variation. The presented results demonstrate such an approach may be insufficient, because it could "leak"noticeable intrinsic variation into phase-independent templates.

Original language	English
Article number	110
Pages (from-to)	1-17
Number of pages	21
Journal	Astrophysical Journal
Volume	982
Issue number	2
Early online date	21 Mar 2025
DOIs	https://doi.org/10.3847/1538-4357/ad9f32
Publication status	Published - 1 Apr 2025

Keywords

Observational cosmology
Type Ia supernovae

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Hand_2025_ApJ_982_110Final published version, 13.7 MBLicence: CC BY

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Hand, J., Kim, A. G., Aldering, G., Antilogus, P., Aragon, C., Bailey, S., Baltay, C., Bongard, S., Boone, K., Buton, C., Copin, Y., Dixon, S., Fouchez, D., Gangler, E., Gupta, R., Hayden, B., Hillebrandt, W., Karmen, M., Kowalski, M., ... Vincenzi, M. (2025). An agnostic approach to building empirical Type Ia supernova light curves: evidence for intrinsic chromatic flux variation using nearby supernova factory data. Astrophysical Journal, 982(2), 1-17. Article 110. https://doi.org/10.3847/1538-4357/ad9f32

@article{66ed23be793741728ef99cf9b4df530b,

title = "An agnostic approach to building empirical Type Ia supernova light curves: evidence for intrinsic chromatic flux variation using nearby supernova factory data",

abstract = "We present a new empirical Type Ia supernova (SN Ia) model with three chromatic flux variation templates: one phase dependent and two phase independent. No underlying dust extinction model or patterns of intrinsic variability are assumed. Implemented with Stan and trained using spectrally binned Nearby Supernova Factory spectrophotometry, we examine this model's 2D, phase-independent flux variation space using two motivated basis representations. In both, the first phase-independent template captures variation that appears dust-like, while the second captures a combination of effectively intrinsic variability and second-order dust-like effects. We find that ≈13% of the modeled phase-independent flux variance is not dust-like. Previous empirical SN Ia models either assume an effective dust extinction recipe in their architecture, or only allow for a single mode of phase-independent variation. The presented results demonstrate such an approach may be insufficient, because it could {"}leak{"}noticeable intrinsic variation into phase-independent templates.",

keywords = "Observational cosmology, Type Ia supernovae",

author = "Jared Hand and Kim, {A. G.} and G. Aldering and P. Antilogus and C. Aragon and S. Bailey and C. Baltay and S. Bongard and K. Boone and C. Buton and Y. Copin and S. Dixon and D. Fouchez and E. Gangler and R. Gupta and B. Hayden and W. Hillebrandt and Mitchell Karmen and M. Kowalski and D. K{\"u}sters and L{\'e}get, {P. F.} and F. Mondon and J. Nordin and R. Pain and E. Pecontal and R. Pereira and S. Perlmutter and Ponder, {K. A.} and D. Rabinowitz and M. Rigault and D. Rubin and K. Runge and C. Saunders and N. Suzuki and C. Tao and S. Taubenberger and Thomas, {R. C.} and M. Vincenzi",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s). Published by the American Astronomical Society.",

year = "2025",

month = apr,

day = "1",

doi = "10.3847/1538-4357/ad9f32",

language = "English",

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Hand, J, Kim, AG, Aldering, G, Antilogus, P, Aragon, C, Bailey, S, Baltay, C, Bongard, S, Boone, K, Buton, C, Copin, Y, Dixon, S, Fouchez, D, Gangler, E, Gupta, R, Hayden, B, Hillebrandt, W, Karmen, M, Kowalski, M, Küsters, D, Léget, PF, Mondon, F, Nordin, J, Pain, R, Pecontal, E, Pereira, R, Perlmutter, S, Ponder, KA, Rabinowitz, D, Rigault, M, Rubin, D, Runge, K, Saunders, C, Suzuki, N, Tao, C, Taubenberger, S, Thomas, RC & Vincenzi, M 2025, 'An agnostic approach to building empirical Type Ia supernova light curves: evidence for intrinsic chromatic flux variation using nearby supernova factory data', Astrophysical Journal, vol. 982, no. 2, 110, pp. 1-17. https://doi.org/10.3847/1538-4357/ad9f32

TY - JOUR

T1 - An agnostic approach to building empirical Type Ia supernova light curves

T2 - evidence for intrinsic chromatic flux variation using nearby supernova factory data

AU - Hand, Jared

AU - Kim, A. G.

AU - Aldering, G.

AU - Antilogus, P.

AU - Aragon, C.

AU - Bailey, S.

AU - Baltay, C.

AU - Bongard, S.

AU - Boone, K.

AU - Buton, C.

AU - Copin, Y.

AU - Dixon, S.

AU - Fouchez, D.

AU - Gangler, E.

AU - Gupta, R.

AU - Hayden, B.

AU - Hillebrandt, W.

AU - Karmen, Mitchell

AU - Kowalski, M.

AU - Küsters, D.

AU - Léget, P. F.

AU - Mondon, F.

AU - Nordin, J.

AU - Pain, R.

AU - Pecontal, E.

AU - Pereira, R.

AU - Perlmutter, S.

AU - Ponder, K. A.

AU - Rabinowitz, D.

AU - Rigault, M.

AU - Rubin, D.

AU - Runge, K.

AU - Saunders, C.

AU - Suzuki, N.

AU - Tao, C.

AU - Taubenberger, S.

AU - Thomas, R. C.

AU - Vincenzi, M.

PY - 2025/4/1

Y1 - 2025/4/1

N2 - We present a new empirical Type Ia supernova (SN Ia) model with three chromatic flux variation templates: one phase dependent and two phase independent. No underlying dust extinction model or patterns of intrinsic variability are assumed. Implemented with Stan and trained using spectrally binned Nearby Supernova Factory spectrophotometry, we examine this model's 2D, phase-independent flux variation space using two motivated basis representations. In both, the first phase-independent template captures variation that appears dust-like, while the second captures a combination of effectively intrinsic variability and second-order dust-like effects. We find that ≈13% of the modeled phase-independent flux variance is not dust-like. Previous empirical SN Ia models either assume an effective dust extinction recipe in their architecture, or only allow for a single mode of phase-independent variation. The presented results demonstrate such an approach may be insufficient, because it could "leak"noticeable intrinsic variation into phase-independent templates.

AB - We present a new empirical Type Ia supernova (SN Ia) model with three chromatic flux variation templates: one phase dependent and two phase independent. No underlying dust extinction model or patterns of intrinsic variability are assumed. Implemented with Stan and trained using spectrally binned Nearby Supernova Factory spectrophotometry, we examine this model's 2D, phase-independent flux variation space using two motivated basis representations. In both, the first phase-independent template captures variation that appears dust-like, while the second captures a combination of effectively intrinsic variability and second-order dust-like effects. We find that ≈13% of the modeled phase-independent flux variance is not dust-like. Previous empirical SN Ia models either assume an effective dust extinction recipe in their architecture, or only allow for a single mode of phase-independent variation. The presented results demonstrate such an approach may be insufficient, because it could "leak"noticeable intrinsic variation into phase-independent templates.

KW - Observational cosmology

KW - Type Ia supernovae

UR - http://www.scopus.com/inward/record.url?scp=105000982454&partnerID=8YFLogxK

U2 - 10.3847/1538-4357/ad9f32

DO - 10.3847/1538-4357/ad9f32

M3 - Article

AN - SCOPUS:105000982454

SN - 0004-637X

VL - 982

SP - 1

EP - 17

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 110

ER -

An agnostic approach to building empirical Type Ia supernova light curves: evidence for intrinsic chromatic flux variation using nearby supernova factory data

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Keywords

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