Empirical determination of the lithium 6707.856 Å wavelength in young stars

Absorption features in stellar atmospheres are often used to calibrate photocentric velocities for the kinematic analysis of further spectral lines. The Li feature at ∼6708 Å is commonly used, especially in the case of young stellar objects, for which it is one of the strongest absorption lines. How...

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Published in:Astronomy and astrophysics (Berlin) 2023-05, Vol.673, p.A80
Main Authors: Campbell-White, Justyn, Manara, Carlo F., Sicilia-Aguilar, Aurora, Frasca, Antonio, Nielsen, Louise D., Christian Schneider, P., Nisini, Brunella, Bayo, Amelia, Ercolano, Barbara, Ábrahám, Péter, Claes, Rik, Fang, Min, Fedele, Davide, Gameiro, Jorge Filipe, Gangi, Manuele, Kóspál, Ágnes, Maucó, Karina, Petr-Gotzens, Monika G., Rigliaco, Elisabetta, Robinson, Connor, Siwak, Michal, Tychoniec, Lukasz, Venuti, Laura
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container_issue
container_start_page A80
container_title Astronomy and astrophysics (Berlin)
container_volume 673
creator Campbell-White, Justyn
Manara, Carlo F.
Sicilia-Aguilar, Aurora
Frasca, Antonio
Nielsen, Louise D.
Christian Schneider, P.
Nisini, Brunella
Bayo, Amelia
Ercolano, Barbara
Ábrahám, Péter
Claes, Rik
Fang, Min
Fedele, Davide
Gameiro, Jorge Filipe
Gangi, Manuele
Kóspál, Ágnes
Maucó, Karina
Petr-Gotzens, Monika G.
Rigliaco, Elisabetta
Robinson, Connor
Siwak, Michal
Tychoniec, Lukasz
Venuti, Laura
description Absorption features in stellar atmospheres are often used to calibrate photocentric velocities for the kinematic analysis of further spectral lines. The Li feature at ∼6708 Å is commonly used, especially in the case of young stellar objects, for which it is one of the strongest absorption lines. However, this complex line comprises two isotope fine-structure doublets. We empirically measured the wavelength of this Li feature in a sample of young stars from the PENELLOPE/VLT programme (using X-shooter, UVES, and ESPRESSO data) as well as HARPS data. For 51 targets, we fit 314 individual spectra using the STAR-MELT package, resulting in 241 accurately fitted Li features given the automated goodness-of-fit threshold. We find the mean air wavelength to be 6707.856 Å, with a standard error of 0.002 Å (0.09 km s −1 ), and a weighted standard deviation of 0.026 Å (1.16 km s −1 ). The observed spread in measured positions spans 0.145 Å, or 6.5 km s −1 , which is higher by up to a factor of six than the typically reported velocity errors for high-resolution studies. We also find a correlation between the effective temperature of the star and the wavelength of the central absorption. We discuss that exclusively using this Li feature as a reference for photocentric velocity in young stars might introduce a systematic positive offset in wavelength to measurements of further spectral lines. If outflow tracing forbidden lines, such as [O  I ] 6300 Å, is more blueshifted than previously thought, this then favours a disc wind as the origin for this emission in young stars.
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title Empirical determination of the lithium 6707.856 Å wavelength in young stars
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