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20.10.2014 11:58

Magnetic white dwarfs appear younger than they are

Thomas Richter Öffentlichkeitsarbeit
Georg-August-Universität Göttingen

    An international group of astronomers including a scientist from the University of Göttingen has found an explanation of the long-standing mystery of why magnetic fields are more common among cool white dwarf stars than among young and hotter ones. The results were published in Nature.

    Press release No. 242/2014

    Magnetic white dwarfs appear younger than they are
    Scientists from Göttingen University link magnetic fields to atmospheric convection

    (pug) An international group of astronomers including a scientist from the University of Göttingen has found an explanation of the long-standing mystery of why magnetic fields are more common among cool white dwarf stars than among young and hotter ones. The researchers showed that strong magnetic fields are sufficient to suppress convection over the entire surface in cool magnetic white dwarfs, which inhibits their cooling evolution relative to weakly magnetic and non-magnetic ones, making them appear younger than they truly are. The results were published in Nature.

    White dwarf (WD) stars are the remnants of intermediate mass stars at the final stage of their evolution. Since the white dwarf does not burn any fusion in its interior, it cools down from the time it is born – pretty much like a pot of hot water left out the fire. Therefore, the surface temperature of any white dwarf star can be uniquely linked to its age.

    If a star-progenitor has a magnetic field, then the contraction process during the formation of the WD will amplify this field by many orders of magnitude. This is how magnetic white dwarf stars (MWD) appear. Because magnetic fields are expected to decay with time, and because surface temperature also drops when WD cools down, one might expect to detect more non-magnetic or weakly magnetic objects at cool temperatures, but the opposite is observed.

    The researchers found that the magnetic field may have a global control of surface convection in cool MWD stars which explains their puzzling characteristics. „By analyzing the light variability of the cool dwarf WD 1953-011 we found a direct link between the strength of local magnetic field and the local surface temperature,“ explains Dr. Denis Shulyak from Göttingen University’s Institute for Astrophysics. This suggests that the magnetic field suppresses atmospheric convection, leading to dark spots in the most magnetized areas similar to that occurring in sunspots.

    However, in contrast to sunspots that have short life times from weeks to months, the magnetic details and associated temperature distribution patterns in WD 1953-011 are stable and do not change over at least ten years. This implies that the majority of convective MWD stars should demonstrate photometric variability. „And this is indeed what astronomers observed,“ says Shuylak.

    But if the global magnetic field is very strong (hundreds of kilogauss and above), it can then inhibit convective motions everywhere over the stellar surface and deep into the interior of the star. „Because convection transfers a significant fraction of the total energy flux from subphotospheric layers to the surface in WD stars with surface temperatures below approximately 12,000 K, its suppression by strong magnetic fields will result in decrease of the stellar luminosity. If we now remember that cooling times of WD stars are inversely proportional to luminosities, then objects with globally suppressed convection should have longer cooling timescales than their non-magnetic or weakly magnetic twins. Therefore, magnetic suppression of cooling provides a natural explanation for the increase in number of MWD stars at cool temperatures where convection is the dominant energy transport mechanism. This result fully agrees with our theoretical predictions,“ says Shulyak.

    The analysis of photometric variability of cool MWD stars and their unexpectedly high frequencies compared to non-magnetic stars, as well as the high dispersion of their space velocities (which carries the information about the stellar age) – all these observational facts ultimately point towards the existence of a magnetic suppression of cooling in strongly magnetic, isolated WD stars.

    „If we imagine the WD star as an open pot with hot water left on the table to cool, then covering it with a lid will slow its cooling time. Strong magnetic field is this kind of lid in WD stars which suppresses convection and therefore heat loses. Our findings imply that the ages of most magnetic and cool MWD stars can be underestimated. This prompts a revision of our interpretation of the MWD cooling sequence that, in turn, may require tuning of our understanding of the evolution of the Galaxy and the Universe,“ concludes Shulyak.

    Original publication: Gennady Valyavin et al. Suppression of cooling by strong magnetic fields in white dwarf stars. Nature 2014. Doi: 10.1038/nature13863.

    Contact:
    Dr. Denis Shulyak
    University of Göttingen
    Faculty of Physics – Institute for Astrophysics
    Friedrich-Hund-Platz 1, 37077 Göttingen, Germany, Phone +49 551 39-5055
    Email: denis@astro.physik.uni-goettingen.de


    Weitere Informationen:

    http://www.astro.physik.uni-goettingen.de/~areiners/AR/AR.htm


    Bilder

    Reconstructed distribution of the magnetic field (red) and temperature (grey) on the surface of white dwarf star WD 1953-011 at different rotation phases.
    Reconstructed distribution of the magnetic field (red) and temperature (grey) on the surface of whit ...
    Foto: Universität Göttingen
    None

    Dr. Denis Shulyak
    Dr. Denis Shulyak
    Foto: Universität Göttingen
    None


    Merkmale dieser Pressemitteilung:
    Journalisten, jedermann
    Physik / Astronomie
    überregional
    Forschungsergebnisse, Wissenschaftliche Publikationen
    Englisch


     

    Reconstructed distribution of the magnetic field (red) and temperature (grey) on the surface of white dwarf star WD 1953-011 at different rotation phases.


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    Dr. Denis Shulyak


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