GW Librae: a unique laboratory for pulsations in an accreting white dwarf
Date Issued
2016
Author(s)
Toloza, O.
•
Gänsicke, B. T.
•
Hermes, J. J.
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Townsley, D. M.
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Schreiber, M. R.
•
Szkody, P.
•
Pala, A.
•
Beuermann, K.
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Bildsten, L.
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Breedt, E.
•
Cook, M.
•
Godon, P.
•
Henden, A. A.
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Hubeny, I.
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Knigge, C.
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Long, K. S.
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Marsh, T. R.
•
•
Mukadam, A. S.
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Myers, G.
•
Nelson, P.
•
Oksanen, A.
•
Patterson, J.
•
Sion, E. M.
•
Zorotovic, M.
Abstract
Non-radial pulsations have been identified in a number of accreting white dwarfs in cataclysmic variables. These stars offer insight into the excitation of pulsation modes in atmospheres with mixed compositions of hydrogen, helium, and metals, and the response of these modes to changes in the white dwarf temperature. Among all pulsating cataclysmic variable white dwarfs, GW Librae stands out by having a well-established observational record of three independent pulsation modes that disappeared when the white dwarf temperature rose dramatically following its 2007 accretion outburst. Our analysis of Hubble Space Telescope (HST) ultraviolet spectroscopy taken in 2002, 2010, and 2011, showed that pulsations produce variations in the white dwarf effective temperature as predicted by theory. Additionally in 2013 May, we obtained new HST/Cosmic Origin Spectrograph ultraviolet observations that displayed unexpected behaviour: besides showing variability at ≃275 s, which is close to the post-outburst pulsations detected with HST in 2010 and 2011, the white dwarf exhibits high-amplitude variability on an ≃4.4 h time-scale. We demonstrate that this variability is produced by an increase of the temperature of a region on white dwarf covering up to ≃30 per cent of the visible white dwarf surface. We argue against a short-lived accretion episode as the explanation of such heating, and discuss this event in the context of non-radial pulsations on a rapidly rotating star.
Volume
459
Issue
4
Start page
3929
Issn Identifier
0035-8711
Ads BibCode
2016MNRAS.459.3929T
Rights
open.access
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