2016
DOI: 10.1051/0004-6361/201527719
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Magnetic Doppler imaging of the chemically peculiar star HD 125248

Abstract: Context. Intermediate-mass, chemically peculiar stars with strong magnetic fields provide an excellent opportunity to study the topology of their surface magnetic fields and the interplay between magnetic geometries and abundance inhomogeneities in the atmospheres of these stars. Aims. We reconstruct detailed maps of the surface magnetic field and abundance distributions for the magnetic Ap star HD 125248. Methods. We performed the analysis based on phase-resolved, four Stokes parameter spectropolarimetric obs… Show more

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Cited by 26 publications
(30 citation statements)
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References 54 publications
(92 reference statements)
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“…In this paper we present a model atmosphere analysis as well as a detailed study of the surface magnetic and chemical structure for the magnetic Ap star HD 119419. This investigation extends our series of four Stokes parameter magnetic mapping studies (Kochukhov et al, 2004;Kochukhov & Wade, 2010;Silvester et al, 2014Silvester et al, , 2015Silvester et al, , 2017Rusomarov et al, 2015Rusomarov et al, , 2016 to a late-B chemically peculiar star which is a member of an open cluster and therefore has a well-established age.…”
Section: Discussionsupporting
confidence: 55%
See 1 more Smart Citation
“…In this paper we present a model atmosphere analysis as well as a detailed study of the surface magnetic and chemical structure for the magnetic Ap star HD 119419. This investigation extends our series of four Stokes parameter magnetic mapping studies (Kochukhov et al, 2004;Kochukhov & Wade, 2010;Silvester et al, 2014Silvester et al, , 2015Silvester et al, , 2017Rusomarov et al, 2015Rusomarov et al, , 2016 to a late-B chemically peculiar star which is a member of an open cluster and therefore has a well-established age.…”
Section: Discussionsupporting
confidence: 55%
“…This paper follows the same methodology of the magnetic inversions as was repeatedly applied by previous similar MDI studies (e.g. Silvester et al, 2014;Rusomarov et al, 2015Rusomarov et al, , 2016.…”
Section: Surface Mapping Methodologymentioning
confidence: 99%
“…90% of the magnetic field energy is in the first harmonic (ℓ = 1), confirming that the field geometry is primarily dipolar. However, the dipolar (ℓ = 1) harmonic has a large toroidal component (36%); this is a much larger contribution than has been observed to date in other Ap/Bp stars that have been mapped with a similar method (e.g., Kochukhov et al 2014;Rusomarov et al 2015Rusomarov et al , 2016Silvester et al 2015). This toroidal component can also be identified in the vector field map in Fig.…”
Section: Magnetic Field Structurementioning
confidence: 70%
“…Several recent studies took advantage of the magnetic DI (MDI, Piskunov & Kochukhov 2002) extension of the indirect mapping technique to recover self-consistently magnetic field topologies and chemical spot distributions from the variation of Stokes parameter spectra (e.g. Kochukhov et al 2015;Silvester et al 2015;Rusomarov et al 2016). However, only a few stars were analysed with this sophisticated MDI method; most observational constraints on the chemical element distributions are still provided by non-magnetic DI investigations.…”
Section: Introductionmentioning
confidence: 99%