New mercury-manganese stars and candidates from LAMOST DR4

Paunzen, E.; Hümmerich, Stefan; Bernhard, Klaus

doi:10.1051/0004-6361/202038847

Cited by 23 publications

(28 citation statements)

References 87 publications

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“…Particularly, it has long been known that "chemically peculiar" stars are common among hot stars (e.g. Renson & Manfroid 2009;Gray et al 2016;Qin et al 2019;Chojnowski et al 2020;Xiang et al 2020;Paunzen et al 2021), which provide good constraints on these stellar element transport processes (e.g. Talon et al 2006;Vick et al 2010;Michaud et al 2015).…”

Section: Introductionmentioning

confidence: 99%

Stellar labels for hot stars from low-resolution spectra - I. the HotPayne method and results for 330,000 stars from LAMOST DR6

Xiang,

Rix,

Ting

et al. 2021

Preprint

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We set out to determine stellar labels from low-resolution survey spectra of hot stars, specifically OBA stars with T eff 7500 K. This fills a gap in the scientific analysis of large spectroscopic stellar surveys such as LAMOST, which offers spectra for millions of stars at R ∼ 1800 and covering 3800Å ≤ λ ≤ 9000Å. We first explore the theoretical information content of such spectra for determining stellar labels, via the Cramér-Rao bound. We show that in the limit of perfect model spectra and observed spectra with S/N∼ 50 − 100, precise estimates are possible for a wide range of stellar labels: not only the effective temperature T eff , surface gravity log g , and projected rotation velocity vsini , but also the micro-turbulence velocity v mic , Helium abundance N He /N tot and the elemental abundances [C/H], [N/H], [O/H], [Si/H], [S/H], and [Fe/H]. Our analysis illustrates that the temperature regime of T eff ∼ 9500 K is challenging, as the dominant Balmer and Paschen line strength vary little with T eff . We implement the simultaneous fitting of these 11 stellar labels to LAMOST hot-star spectra using the PAYNE approach, drawing on Kurucz's ATLAS12/SYNTHE LTE spectra as the underlying models. We then obtain stellar parameter estimates for a sample of about 330,000 hot stars with LAMOST spectra, an increase by about two orders of magnitude in sample size. Among them, about 260,000 have S /N > 5 Gaia parallaxes, and their luminosities imply that 95% among them are luminous star, mostly on the main sequence; the rest reflects lower luminosity evolved stars, such as hot subdwarfs and white dwarfs. We show that the fidelity of the results, particularly for the abundance estimates, is limited by the systematics of the underlying models, as they do not account for NLTE effects. Finally, we show the detailed distribution of v sin i of stars with 8000 − 15, 000 K, illustrating that it extends to a sharp cut-off at the critical rotation velocity, v crit , across a wide range of temperatures.

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Section: Introductionmentioning

confidence: 99%

Stellar labels for hot stars from low-resolution spectra - I. the HotPayne method and results for 330,000 stars from LAMOST DR6

Xiang,

Rix,

Ting

et al. 2021

Preprint

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“…Such variables were already excluded in the selection process (Section 2). Both groups show also indications of rotational variability, but with amplitudes of a few mmags only (Balona et al 2015;Paunzen et al 2021;Kochukhov et al 2021). The amplitudes of our variable star sample are much larger (Fig.…”

Section: Light Curvesmentioning

confidence: 94%

A case study of ACV variables discovered in the Zwicky Transient Facility survey

Faltová,

Kallová,

Prišegen

et al. 2021

Preprint

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Context. Magnetic chemically peculiar (mCP) stars exhibit complex atmospheres that allow the investigation of the interplay of atomic diffusion, magnetic fields, and stellar rotation. A non-uniform surface distribution of chemical elements and the non-alignment of the rotational and magnetic axes result in the variability of several observables. Photometrically variable mCP stars are referred to as α 2 Canum Venaticorum (ACV) variables. Aims. The present work presents a case study of known variables from the Zwicky Transient Facility (ZTF) survey, with the aim of investigating the survey's suitability for the detection and study of new ACV variables. Methods. Using suitable selection criteria based on the known characteristics of ACV variables, candidate ACV stars were selected from the ZTF Catalog of Periodic Variable Stars. All light curves were inspected in detail to select the most promising candidates. Where available, low-resolution spectra from the Large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST) were employed to classify the stars on the MK system and confirm their status as mCP stars.Results. We have identified 86 new promising ACV star candidates. 15 of these stars have LAMOST spectra available, which, in all cases, confirm them as classical mCP stars, which highlights the viability of our approach. We present astrophysical parameters for all sample stars, which can be sorted into four subgroups characterized by distinct light curve shapes. Anti-phase variations in different photometric passbands, in particular, is a unique characteristic of a subset of ACV stars readily usable for their identification. The availability of data in three different passbands (g, r, and i) is a major advantage of the ZTF survey. Conclusions. On the basis of our experience with other photometric surveys and the analysis of light curves, we conclude that the ZTF is well suited for the search for, and the analysis of, ACV variables, which, however, are not considered in the available ZTF variable star catalogues. Further work will be concerned with the development and refinement of a search algorithm to correctly identify these stars in ZTF data and, subsequently, in massive photometric time-series databases in general.

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“…These variables were already excluded in the selection process (Section 2). Both groups also show indications of rotational variability, but with amplitudes of only a few mmags (Balona et al 2015;Paunzen et al 2021;Kochukhov et al 2021). The amplitudes of our variable star sample are much larger (Fig.…”

Section: Light Curvesmentioning

confidence: 99%

“…In addition, there are also the CP1 stars (the metallic-line or Am/Fm stars; Qin et al 2019) and the CP3 stars (the mercurymanganese or HgMn stars; Paunzen et al 2021). These groups are believed to possess only very weak, if any, magnetic fields (Bychkov et al 2003).…”

Section: Introductionmentioning

confidence: 99%

A case study of ACV variables discovered in the Zwicky Transient Facility survey

Faltová

Kallova

Prišegen

et al. 2021

A&A

Self Cite

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Context. Magnetic chemically peculiar (mCP) stars exhibit complex atmospheres that allow the investigation of the interplay of atomic diffusion, magnetic fields, and stellar rotation. A non-uniform surface distribution of chemical elements and the non-alignment of the rotational and magnetic axes result in the variability of several observables. Photometrically variable mCP stars are referred to as α 2 Canum Venaticorum (ACV) variables. Aims. The present work presents a case study of known variables from the Zwicky Transient Facility (ZTF) survey, with the aim of investigating the survey's suitability for the detection and study of new ACV variables. Methods. Using suitable selection criteria based on the known characteristics of ACV variables, candidate ACV stars were selected from the ZTF Catalog of Periodic Variable Stars. All light curves were inspected in detail to select the most promising candidates. Where available, low-resolution spectra from the Large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST) were employed to classify the stars on the MK system and confirm their status as mCP stars. Results. We have identified 86 new promising ACV star candidates. Fifteen of these stars have LAMOST spectra available that, in all cases, confirm them as classical mCP stars, which highlights the viability of our approach. We present astrophysical parameters for all sample stars that can be sorted into four subgroups characterized by distinct light curve shapes. Anti-phase variations in different photometric passbands, in particular, is a unique characteristic of a subset of ACV stars readily usable for their identification. The availability of data in three different passbands (g, r, and i) is a major advantage of the ZTF survey. Conclusions. On the basis of our experience with other photometric surveys and the analysis of light curves, we conclude that the ZTF is well suited to the search for, and the analysis of, ACV variables that are not considered in the available ZTF variable star catalogs. Further work will focus on the development and refinement of a search algorithm to correctly identify these stars in ZTF data and, subsequently, in massive photometric time series databases in general.

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New mercury-manganese stars and candidates from LAMOST DR4

Cited by 23 publications

References 87 publications

Stellar labels for hot stars from low-resolution spectra - I. the HotPayne method and results for 330,000 stars from LAMOST DR6

Stellar labels for hot stars from low-resolution spectra - I. the HotPayne method and results for 330,000 stars from LAMOST DR6

A case study of ACV variables discovered in the Zwicky Transient Facility survey

A case study of ACV variables discovered in the Zwicky Transient Facility survey

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