DAmodel: hierarchical Bayesian modelling of DA white dwarfs for spectrophotometric calibration

Benjamin M. Boyd; Gautham Narayan; Kaisey S. Mandel; Matthew Grayling; Abhijit Saha; Tim Axelrod; Thomas Matheson; Edward W. Olszewski; Annalisa Calamida; Aaron Do; Ralph C. Bohlin; Jay B. Holberg; Ivan Hubeny; Susana Deustua; Armin Rest; Christopher W. Stubbs; Aidan Berres; Mai Li; John W. Mackenty; Elena Sabbi

doi:10.1093/mnras/staf629

DAmodel: hierarchical Bayesian modelling of DA white dwarfs for spectrophotometric calibration

Benjamin M. Boyd
, Gautham Narayan
, Kaisey S. Mandel
, Matthew Grayling
, Abhijit Saha
, Tim Axelrod
, Thomas Matheson
, Edward W. Olszewski
, Annalisa Calamida
, Aaron Do
, Ralph C. Bohlin
, Jay B. Holberg
, Ivan Hubeny
, Susana Deustua
, Armin Rest
, Christopher W. Stubbs
, Aidan Berres
, Mai Li
, John W. Mackenty
, Elena Sabbi

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

2 Scopus citations

Abstract

We use hierarchical Bayesian modelling to calibrate a network of 32 all-sky faint DA white dwarf (DA WD) spectrophotometric standards (16.5 < V < 19.5) alongside three CALSPEC standards, from 912 Å to 32 μm. The framework is the first of its kind to jointly infer photometric zero points and WD parameters (surface gravity log g, effective temperature T_eff, extinction A_V , dust relation parameter R_V ) by simultaneously modelling both photometric and spectroscopic data. We model panchromatic Hubble Space Telescope Wide Field Camera 3 (HST/WFC3) UVIS and IR photometry, HST/STIS UV spectroscopy, and ground-based optical spectroscopy to sub-per cent precision. Photometric residuals for the sample are the lowest yet yielding < 0.004 mag RMS on average from the UV to the NIR, achieved by jointly inferring time-dependent changes in system sensitivity and WFC3/IR count-rate nonlinearity. Our GPU-accelerated implementation enables efficient sampling via Hamiltonian Monte Carlo, critical for exploring the high-dimensional posterior space. The hierarchical nature of the model enables population analysis of intrinsic WD and dust parameters. Inferred spectral energy distributions from this model will be essential for calibrating the James Webb Space Telescope as well as next-generation surveys, including Vera Rubin Observatory’s Legacy Survey of Space and Time and the Nancy Grace Roman Space Telescope.

Original language	English (US)
Pages (from-to)	385-415
Number of pages	31
Journal	Monthly Notices of the Royal Astronomical Society
Volume	540
Issue number	1
DOIs	https://doi.org/10.1093/mnras/staf629
State	Published - Jun 1 2025

Keywords

methods: statistical
standards
stars: fundamental parameters
stars: statistics
surveys
white dwarfs

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1093/mnras/staf629

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Boyd, B. M., Narayan, G., Mandel, K. S., Grayling, M., Saha, A., Axelrod, T., Matheson, T., Olszewski, E. W., Calamida, A., Do, A., Bohlin, R. C., Holberg, J. B., Hubeny, I., Deustua, S., Rest, A., Stubbs, C. W., Berres, A., Li, M., Mackenty, J. W., & Sabbi, E. (2025). DAmodel: hierarchical Bayesian modelling of DA white dwarfs for spectrophotometric calibration. Monthly Notices of the Royal Astronomical Society, 540(1), 385-415. https://doi.org/10.1093/mnras/staf629

Boyd, BM, Narayan, G, Mandel, KS, Grayling, M, Saha, A, Axelrod, T, Matheson, T, Olszewski, EW, Calamida, A, Do, A, Bohlin, RC, Holberg, JB, Hubeny, I, Deustua, S, Rest, A, Stubbs, CW, Berres, A, Li, M, Mackenty, JW & Sabbi, E 2025, 'DAmodel: hierarchical Bayesian modelling of DA white dwarfs for spectrophotometric calibration', Monthly Notices of the Royal Astronomical Society, vol. 540, no. 1, pp. 385-415. https://doi.org/10.1093/mnras/staf629

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title = "DAmodel: hierarchical Bayesian modelling of DA white dwarfs for spectrophotometric calibration",

abstract = "We use hierarchical Bayesian modelling to calibrate a network of 32 all-sky faint DA white dwarf (DA WD) spectrophotometric standards (16.5 < V < 19.5) alongside three CALSPEC standards, from 912 {\AA} to 32 μm. The framework is the first of its kind to jointly infer photometric zero points and WD parameters (surface gravity log g, effective temperature Teff, extinction AV , dust relation parameter RV ) by simultaneously modelling both photometric and spectroscopic data. We model panchromatic Hubble Space Telescope Wide Field Camera 3 (HST/WFC3) UVIS and IR photometry, HST/STIS UV spectroscopy, and ground-based optical spectroscopy to sub-per cent precision. Photometric residuals for the sample are the lowest yet yielding < 0.004 mag RMS on average from the UV to the NIR, achieved by jointly inferring time-dependent changes in system sensitivity and WFC3/IR count-rate nonlinearity. Our GPU-accelerated implementation enables efficient sampling via Hamiltonian Monte Carlo, critical for exploring the high-dimensional posterior space. The hierarchical nature of the model enables population analysis of intrinsic WD and dust parameters. Inferred spectral energy distributions from this model will be essential for calibrating the James Webb Space Telescope as well as next-generation surveys, including Vera Rubin Observatory{\textquoteright}s Legacy Survey of Space and Time and the Nancy Grace Roman Space Telescope.",

keywords = "methods: statistical, standards, stars: fundamental parameters, stars: statistics, surveys, white dwarfs",

author = "Boyd, \{Benjamin M.\} and Gautham Narayan and Mandel, \{Kaisey S.\} and Matthew Grayling and Abhijit Saha and Tim Axelrod and Thomas Matheson and Olszewski, \{Edward W.\} and Annalisa Calamida and Aaron Do and Bohlin, \{Ralph C.\} and Holberg, \{Jay B.\} and Ivan Hubeny and Susana Deustua and Armin Rest and Stubbs, \{Christopher W.\} and Aidan Berres and Mai Li and Mackenty, \{John W.\} and Elena Sabbi",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Published by Oxford University Press on behalf of Royal Astronomical Society.",

year = "2025",

month = jun,

day = "1",

doi = "10.1093/mnras/staf629",

language = "English (US)",

volume = "540",

pages = "385--415",

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T1 - DAmodel

T2 - hierarchical Bayesian modelling of DA white dwarfs for spectrophotometric calibration

AU - Boyd, Benjamin M.

AU - Narayan, Gautham

AU - Mandel, Kaisey S.

AU - Grayling, Matthew

AU - Saha, Abhijit

AU - Axelrod, Tim

AU - Matheson, Thomas

AU - Olszewski, Edward W.

AU - Calamida, Annalisa

AU - Do, Aaron

AU - Bohlin, Ralph C.

AU - Holberg, Jay B.

AU - Hubeny, Ivan

AU - Deustua, Susana

AU - Rest, Armin

AU - Stubbs, Christopher W.

AU - Berres, Aidan

AU - Li, Mai

AU - Mackenty, John W.

AU - Sabbi, Elena

PY - 2025/6/1

Y1 - 2025/6/1

N2 - We use hierarchical Bayesian modelling to calibrate a network of 32 all-sky faint DA white dwarf (DA WD) spectrophotometric standards (16.5 < V < 19.5) alongside three CALSPEC standards, from 912 Å to 32 μm. The framework is the first of its kind to jointly infer photometric zero points and WD parameters (surface gravity log g, effective temperature Teff, extinction AV , dust relation parameter RV ) by simultaneously modelling both photometric and spectroscopic data. We model panchromatic Hubble Space Telescope Wide Field Camera 3 (HST/WFC3) UVIS and IR photometry, HST/STIS UV spectroscopy, and ground-based optical spectroscopy to sub-per cent precision. Photometric residuals for the sample are the lowest yet yielding < 0.004 mag RMS on average from the UV to the NIR, achieved by jointly inferring time-dependent changes in system sensitivity and WFC3/IR count-rate nonlinearity. Our GPU-accelerated implementation enables efficient sampling via Hamiltonian Monte Carlo, critical for exploring the high-dimensional posterior space. The hierarchical nature of the model enables population analysis of intrinsic WD and dust parameters. Inferred spectral energy distributions from this model will be essential for calibrating the James Webb Space Telescope as well as next-generation surveys, including Vera Rubin Observatory’s Legacy Survey of Space and Time and the Nancy Grace Roman Space Telescope.

AB - We use hierarchical Bayesian modelling to calibrate a network of 32 all-sky faint DA white dwarf (DA WD) spectrophotometric standards (16.5 < V < 19.5) alongside three CALSPEC standards, from 912 Å to 32 μm. The framework is the first of its kind to jointly infer photometric zero points and WD parameters (surface gravity log g, effective temperature Teff, extinction AV , dust relation parameter RV ) by simultaneously modelling both photometric and spectroscopic data. We model panchromatic Hubble Space Telescope Wide Field Camera 3 (HST/WFC3) UVIS and IR photometry, HST/STIS UV spectroscopy, and ground-based optical spectroscopy to sub-per cent precision. Photometric residuals for the sample are the lowest yet yielding < 0.004 mag RMS on average from the UV to the NIR, achieved by jointly inferring time-dependent changes in system sensitivity and WFC3/IR count-rate nonlinearity. Our GPU-accelerated implementation enables efficient sampling via Hamiltonian Monte Carlo, critical for exploring the high-dimensional posterior space. The hierarchical nature of the model enables population analysis of intrinsic WD and dust parameters. Inferred spectral energy distributions from this model will be essential for calibrating the James Webb Space Telescope as well as next-generation surveys, including Vera Rubin Observatory’s Legacy Survey of Space and Time and the Nancy Grace Roman Space Telescope.

KW - methods: statistical

KW - standards

KW - stars: fundamental parameters

KW - stars: statistics

KW - surveys

KW - white dwarfs

UR - https://www.scopus.com/pages/publications/105005827082

UR - https://www.scopus.com/pages/publications/105005827082#tab=citedBy

U2 - 10.1093/mnras/staf629

DO - 10.1093/mnras/staf629

M3 - Article

AN - SCOPUS:105005827082

SN - 0035-8711

VL - 540

SP - 385

EP - 415

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 1

ER -

DAmodel: hierarchical Bayesian modelling of DA white dwarfs for spectrophotometric calibration

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