New grids of pure-hydrogen white dwarf nlte model atmospheres and the hst/stis flux calibration

Ralph C. Bohlin; Ivan Hubeny; Thomas Rauch

doi:10.3847/1538-3881/ab94b4

New grids of pure-hydrogen white dwarf nlte model atmospheres and the hst/stis flux calibration

Ralph C. Bohlin, Ivan Hubeny, Thomas Rauch

Steward Observatory

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

74 Scopus citations

Abstract

Nonlocal thermodynamic equilibrium (NLTE) calculations of hot white dwarf (WD) model atmospheres are the cornerstone of modern flux calibrations for the Hubble Space Telescope and for the CALSPEC database. These theoretical spectral energy distributions (SEDs) provide the relative flux versus wavelength, and only the absolute flux level remains to be set by reconciling the measured absolute flux of Vega in the visible with the Midcourse Space Experiment values for Sirius in the mid-IR. The most recent SEDs calculated by the tlusty and tmap NLTE model atmosphere codes for the primary WDs G191-B2B, GD 153, and GD 71 show improved agreement to 1% from 1500 Å to 30 μm, in comparison to the previous 1% consistency only from 2000 Å to 5 μm. These new NLTE models of hot WDs now provide consistent flux standards from the far UV to the mid-IR.

Original language	English (US)
Article number	21
Journal	Astronomical Journal
Volume	160
Issue number	1
DOIs	https://doi.org/10.3847/1538-3881/ab94b4
State	Published - Jul 2020

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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title = "New grids of pure-hydrogen white dwarf nlte model atmospheres and the hst/stis flux calibration",

abstract = "Nonlocal thermodynamic equilibrium (NLTE) calculations of hot white dwarf (WD) model atmospheres are the cornerstone of modern flux calibrations for the Hubble Space Telescope and for the CALSPEC database. These theoretical spectral energy distributions (SEDs) provide the relative flux versus wavelength, and only the absolute flux level remains to be set by reconciling the measured absolute flux of Vega in the visible with the Midcourse Space Experiment values for Sirius in the mid-IR. The most recent SEDs calculated by the tlusty and tmap NLTE model atmosphere codes for the primary WDs G191-B2B, GD 153, and GD 71 show improved agreement to 1% from 1500 {\AA} to 30 μm, in comparison to the previous 1% consistency only from 2000 {\AA} to 5 μm. These new NLTE models of hot WDs now provide consistent flux standards from the far UV to the mid-IR.",

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T1 - New grids of pure-hydrogen white dwarf nlte model atmospheres and the hst/stis flux calibration

AU - Bohlin, Ralph C.

AU - Hubeny, Ivan

AU - Rauch, Thomas

PY - 2020/7

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N2 - Nonlocal thermodynamic equilibrium (NLTE) calculations of hot white dwarf (WD) model atmospheres are the cornerstone of modern flux calibrations for the Hubble Space Telescope and for the CALSPEC database. These theoretical spectral energy distributions (SEDs) provide the relative flux versus wavelength, and only the absolute flux level remains to be set by reconciling the measured absolute flux of Vega in the visible with the Midcourse Space Experiment values for Sirius in the mid-IR. The most recent SEDs calculated by the tlusty and tmap NLTE model atmosphere codes for the primary WDs G191-B2B, GD 153, and GD 71 show improved agreement to 1% from 1500 Å to 30 μm, in comparison to the previous 1% consistency only from 2000 Å to 5 μm. These new NLTE models of hot WDs now provide consistent flux standards from the far UV to the mid-IR.

AB - Nonlocal thermodynamic equilibrium (NLTE) calculations of hot white dwarf (WD) model atmospheres are the cornerstone of modern flux calibrations for the Hubble Space Telescope and for the CALSPEC database. These theoretical spectral energy distributions (SEDs) provide the relative flux versus wavelength, and only the absolute flux level remains to be set by reconciling the measured absolute flux of Vega in the visible with the Midcourse Space Experiment values for Sirius in the mid-IR. The most recent SEDs calculated by the tlusty and tmap NLTE model atmosphere codes for the primary WDs G191-B2B, GD 153, and GD 71 show improved agreement to 1% from 1500 Å to 30 μm, in comparison to the previous 1% consistency only from 2000 Å to 5 μm. These new NLTE models of hot WDs now provide consistent flux standards from the far UV to the mid-IR.

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New grids of pure-hydrogen white dwarf nlte model atmospheres and the hst/stis flux calibration

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