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dc.contributorArmagh Observatory & Planetarium, College Hill, Armagh, BT61 9DG, UK;
dc.contributorArmagh Observatory & Planetarium, College Hill, Armagh, BT61 9DG, UK; Dept. of Physics & Astronomy, University of Western Ontario, London, Ontario, N6A 3K7, Canada
dc.contributorDepartment of Physics and Astronomy, University College London, London, WC1E 6BT, UK
dc.contributorTartu Observatory, University of Tartu, Observatooriumi 1, Töravere, 61602, Estonia
dc.contributorDepartment of Physics, University of Warwick, Coventry, CV4 7AL, UK
dc.contributorSpace Research Institute, Austrian Academy of Sciences, 8042, Graz, Austria
dc.contributor.authorBagnulo, S.
dc.contributor.authorLandstreet, J. D.
dc.contributor.authorFarihi, J.
dc.contributor.authorFolsom, C. P.
dc.contributor.authorHollands, M. A.
dc.contributor.authorFossati, L.
dc.date.accessioned2024-10-02T19:40:42Z
dc.date.available2024-10-02T19:40:42Z
dc.date.issued2024-08-01T00:00:00Z
dc.identifier.doi10.1051/0004-6361/202451215
dc.identifier.doi10.48550/arXiv.2407.17196
dc.identifier.other2024arXiv240717196B
dc.identifier.otherastro-ph.SR
dc.identifier.other10.1051/0004-6361/202451215
dc.identifier.otherarXiv:2407.17196
dc.identifier.other10.48550/arXiv.2407.17196
dc.identifier.other2024arXiv240717196B
dc.identifier.other2024A&A...688L..14B
dc.identifier.other0000-0002-7156-8029
dc.identifier.other0000-0001-8218-8542
dc.identifier.other0000-0003-1748-602X
dc.identifier.other0000-0002-9023-7890
dc.identifier.other0000-0003-0089-2080
dc.identifier.other0000-0003-4426-9530
dc.identifier.urihttp://hdl.handle.net/20.500.14302/2100
dc.description.abstractMore than 30% of white dwarfs exhibit atmospheric metals, which are understood to be from recent or ongoing accretion of circumstellar debris. In cool white dwarfs, surface motions should rapidly homogenise photospheric abundances, and the accreted heavy elements should diffuse inward on a timescale much longer than that for surface mixing. The recent discovery of a metal scar on WD 0816-310 implies its B ≈ 140 kG magnetic field has impeded surface mixing of metals near the visible magnetic pole. Here, we report the discovery of a second magnetic, metal-polluted white dwarf, WD 2138-332, which exhibits periodic variability in longitudinal field, metal line strength, and broadband photometry. All three variable quantities have the same period, and show remarkable correlations: the published light curves have a brightness minimum exactly when the longitudinal field and line strength have a maximum, and a maximum when the longitudinal field and line strength have a minimum. The simplest interpretation of the line strength variability is that there is an enhanced metal concentration around one pole of the magnetic field; however, the variable line-blanketing cannot account for the observed multi-band light curves. More theoretical work is required to understand the efficiency of horizontal mixing of the accreted metal atoms, and the origin of photometric variability. Because both magnetic, metal-polluted white dwarfs that have been monitored to date show that metal line strengths vary in phase with the longitudinal field, we suggest that metal scars around magnetic poles may be a common feature of metal-polluted white dwarfs.
dc.publisherAstronomy and Astrophysics
dc.titleMetal accretion scars may be common on magnetic, polluted white dwarfs
dc.typearticle
dc.source.journalA&A
dc.source.journalA&A...688
dc.source.volume688
dc.identifier.bibcode2024A&A...688L..14B


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