Sun-as-a-star observations of the 2017 August 21 solar eclipse

The Potsdam Echelle Polarimetric and Spectroscopic Instrument (PEPSI) is a state-of-the-art, thermally stabilized, fiber-fed, high-resolution spectrograph for the Large Binocular Telescope (LBT) at Mt. Graham, Arizona. During daytime the instrument is fed with sunlight from the 10-millimeter apertur...

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Veröffentlicht in:	Proceedings of the International Astronomical Union 2019-06, Vol.15 (S354), p.473-480
Hauptverfasser:	Dineva, Ekaterina, Denker, Carsten, Verma, Meetu, Strassmeier, Klaus G., Ilyin, Ilya, Milic, Ivan
Format:	Artikel
Sprache:	eng
Schlagworte:	Apertures Astronomy Contributed Papers Darkening Differential rotation Limb darkening Line spectra Moon Occultation Photosphere Polarimetry Solar eclipses Solar spectra Solar surface Spectral resolution Stellar spectra Sun
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creator	Dineva, Ekaterina Denker, Carsten Verma, Meetu Strassmeier, Klaus G. Ilyin, Ilya Milic, Ivan
description	The Potsdam Echelle Polarimetric and Spectroscopic Instrument (PEPSI) is a state-of-the-art, thermally stabilized, fiber-fed, high-resolution spectrograph for the Large Binocular Telescope (LBT) at Mt. Graham, Arizona. During daytime the instrument is fed with sunlight from the 10-millimeter aperture, fully automated, binocular Solar Disk-Integrated (SDI) telescope. The observed Sun-as-a-star spectra contain a multitude of photospheric and chromospheric spectral lines in the wavelength ranges 4200–4800 Å and 5300–6300 Å. One of the advantages of PEPSI is that solar spectra are recorded in the exactly same manner as nighttime targets. Thus, solar and stellar spectra can be directly compared. PEPSI/SDI recorded 116 Sun-as-a-star spectra during the 2017 August 21 solar eclipse. The observed maximum obscuration was 61.6%. The spectra were taken with a spectral resolution of ≈ 250000 and an exposure time of 0.3 s. The high-spectral resolution facilitates detecting subtle changes in the spectra while the Moon passes the solar disk. Sun-as-a-star spectra are affected by changing contributions due to limb darkening and solar differential rotation, and to a lesser extend by supergranular velocity pattern and the presence of active regions on the solar surface. The goal of this study is to investigate the temporal evolution of the chromospheric Na D doublet during the eclipse and to compare observations with synthetic line profiles computed with the state-of-the-art Bifrost code.
doi_str_mv	10.1017/S1743921319010019
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The high-spectral resolution facilitates detecting subtle changes in the spectra while the Moon passes the solar disk. Sun-as-a-star spectra are affected by changing contributions due to limb darkening and solar differential rotation, and to a lesser extend by supergranular velocity pattern and the presence of active regions on the solar surface. 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subjects	Apertures Astronomy Contributed Papers Darkening Differential rotation Limb darkening Line spectra Moon Occultation Photosphere Polarimetry Solar eclipses Solar spectra Solar surface Spectral resolution Stellar spectra Sun
title	Sun-as-a-star observations of the 2017 August 21 solar eclipse
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