Orbital parameters and evolutionary status of the highly peculiar binary system HD 66051

Paunzen, E.; Fedurco, M.; Hełminiak, K. G.; Pintado, O. I.; Hambsch, Franz-Josef; Hümmerich, Stefan; Niemczura, E.; Bernhard, Klaus; Konacki, Maciej; Hubrig, S.

doi:10.1051/0004-6361/201732257

Cited by 9 publications

(6 citation statements)

References 37 publications

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“…The use of oscillator strengths compiled in the DREAM database also allowed to identify new lanthanide lines in many different high-resolution astrophysical spectra and to deduce reliable abundances of rare earth elements (sometimes up to several orders of magnitude higher than the solar values in the case of various chemically peculiar stars), see, e.g., [45][46][47][48][49][50][51][52][53][54][55][56]. To give just one noteworthy specific example, we will mention the recent multicolour photometric investigation of the eclipsing binary system HD 66051 [53] carried out using, among other data, the spectroscopic parameters of the second and third spectra of lanthanides taken from the DREAM database.…”

Section: Some Examples Of Uses Of Atomic Data From Dreammentioning

confidence: 99%

Current Status and Developments of the Atomic Database on Rare-Earths at Mons University (DREAM)

Quinet

Palmeri²

2020

Atoms

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The main purpose of the Database on Rare Earths At Mons University (DREAM) is to provide the scientific community with updated spectroscopic parameters related to lanthanide atoms (Z = 57–71) in their lowest ionization stages. The radiative parameters (oscillator strengths and transitions probabilities) listed in the database have been obtained over the past 20 years by the Atomic Physics and Astrophysics group of Mons University, Belgium, thanks to a systematic and extensive use of the pseudo-relativistic Hartree-Fock (HFR) method modified for taking core-polarization and core-penetration effects into account. Most of these theoretical results have been validated by the good agreement obtained when comparing computed radiative lifetimes and accurate experimental values measured by the time-resolved laser-induced fluorescence technique. In the present paper, we report on the current status and developments of the database that gathers radiative parameters for more than 72,000 spectral lines in neutral, singly-, doubly-, and triply-ionized lanthanides.

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Section: Some Examples Of Uses Of Atomic Data From Dreammentioning

confidence: 99%

Current Status and Developments of the Atomic Database on Rare-Earths at Mons University (DREAM)

Quinet

Palmeri²

2020

Atoms

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“…The temperature inhomogeneities can be caused by magnetic activity, such as in the case of variables of an RS CVn type (Pribulla et al 2000(Pribulla et al , 2001Vaňko et al 2007). Additionally, variations in the local chemical composition of the stellar surface, such as in the case of chemically peculiar stars (Strassmeier et al 2017;Paunzen et al 2018), can lead to spot variability. In the case of magnetic field-driven spots, the disturbances in a local magnetic field of the star with a convective envelope is capable of generating local suppression of convection that transfer energy from deeper parts of the star towards the surface.…”

Section: Modelling Of Spots In Elisamentioning

confidence: 99%

ELISa: A new tool for fast modelling of eclipsing binaries

Čokina

Fedurco

Parimucha

2021

A&A

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Context. We present a new, fast, and easy to use tool for modelling light and radial velocity curves of close eclipsing binaries with built-in methods for solving an inverse problem. Aims. The main goal of ELISa (Eclipsing binary Learning and Interactive System) is to provide an acceptable compromise between computational speed and precision during the fitting of light curves and radial velocities of eclipsing binaries. The package is entirely written in the Python programming language in a modular fashion, making it easy to install, modify, and run on various operating systems. Methods. ELISa implements Roche geometry and the triangulation process to model a surface of the eclipsing binary components, where the surface parameters of each surface element are treated separately. Surface symmetries and approximations based on the similarity between surface geometries were used to reduce the runtime during light curve calculation significantly. ELISa implements the least square trust region reflective algorithm and Markov-chain Monte Carlo optimisation methods to provide the built-in capability to determine parameters of the binary system from photometric observations and radial velocities. Results. The precision and speed of the light curve generator were evaluated using various benchmarks. We conclude that ELISa maintains an acceptable level of accuracy to analyse data from ground-based and space-based observations, and it provides a significant reduction in computational time compared to the current widely used tools for modelling eclipsing binaries.

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“…Niemczura et al 2017and Paunzen et al (2018) analyzed high-resolution spectra and photometric time series allowing them to determine the atmospheric parameters, the preliminary chemical composition of both stars, and orbital parameters (P = 4.749218 d) of the system. The primary component was found to be a slowly rotating late B-type star with a highly peculiar composition reminiscent of the primary in the SB1 system HD 65949, which seems to be its closest analogue.…”

Section: Prior Analysis Of Hd 66051mentioning

confidence: 99%

The enigmatic highly peculiar binary system HD 66051

Paunzen¹,

Niemczura²,

Kołaczek-Szymański³

et al. 2020

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HD 66051 (V414 Pup) is an eclipsing and spectroscopic double-lined binary, hosting two chemically peculiar stars: a highly peculiar B star as primary and an Am star as secondary. It also shows out-of-eclipse variability that is due to chemical spots. Using a set of high-resolution spectropolarimetric observations, a weak magnetic field on the primary was found. The investigation of the new high-resolution UVES spectrum of HD 66051 allowed us to decide on the chemical peculiarity type of both components with more reliability.

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Orbital parameters and evolutionary status of the highly peculiar binary system HD 66051

Cited by 9 publications

References 37 publications

Current Status and Developments of the Atomic Database on Rare-Earths at Mons University (DREAM)

Current Status and Developments of the Atomic Database on Rare-Earths at Mons University (DREAM)

ELISa: A new tool for fast modelling of eclipsing binaries

The enigmatic highly peculiar binary system HD 66051

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