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A rotating white dwarf shows different compositions on its opposite faces

Authors :
Caiazzo, Ilaria
Burdge, Kevin B.
Tremblay, Pier-Emmanuel
Fuller, James
Ferrario, Lilia
Gaensicke, Boris T.
Hermes, J. J.
Heyl, Jeremy
Kawka, Adela
Kulkarni, S. R.
Marsh, Thomas R.
Mroz, Przemek
Prince, Thomas A.
Richer, Harvey B.
Rodriguez, Antonio C.
van Roestel, Jan
Vanderbosch, Zachary P.
Vennes, Stephane
Wickramasinghe, Dayal
Dhillon, Vikram S.
Littlefair, Stuart P.
Munday, James
Pelisoli, Ingrid
Perley, Daniel
Bellm, Eric C.
Breedt, Elme
Brown, Alex J.
Dekany, Richard
Drake, Andrew
Dyer, Martin J.
Graham, Matthew J.
Green, Matthew J.
Laher, Russ R.
Kerry, Paul
Parsons, Steven G.
Riddle, Reed L.
Rusholme, Ben
Sahman, Dave I.
Source :
Nature 620, 61-66 (2023)
Publication Year :
2023

Abstract

White dwarfs, the extremely dense remnants left behind by most stars after their death, are characterised by a mass comparable to that of the Sun compressed into the size of an Earth-like planet. In the resulting strong gravity, heavy elements sink toward the centre and the upper layer of the atmosphere contains only the lightest element present, usually hydrogen or helium. Several mechanisms compete with gravitational settling to change a white dwarf's surface composition as it cools, and the fraction of white dwarfs with helium atmospheres is known to increase by a factor ~2.5 below a temperature of about 30,000 K; therefore, some white dwarfs that appear to have hydrogen-dominated atmospheres above 30,000 K are bound to transition to be helium-dominated as they cool below it. Here we report observations of ZTF J203349.8+322901.1, a transitioning white dwarf with two faces: one side of its atmosphere is dominated by hydrogen and the other one by helium. This peculiar nature is likely caused by the presence of a small magnetic field, which creates an inhomogeneity in temperature, pressure or mixing strength over the surface. ZTF J203349.8+322901.1 might be the most extreme member of a class of magnetic, transitioning white dwarfs -- together with GD 323, a white dwarf that shows similar but much more subtle variations. This new class could help shed light on the physical mechanisms behind white dwarf spectral evolution.<br />Comment: 45 pages, 11 figures

Details

Database :
arXiv
Journal :
Nature 620, 61-66 (2023)
Publication Type :
Report
Accession number :
edsarx.2308.07430
Document Type :
Working Paper
Full Text :
https://doi.org/10.1038/s41586-023-06171-9