Heavy elements are observed in the atmospheres of many DA and DB white dwarfs, and their presence is attributed to the accretion of matter coming from debris disks. Several authors have deduced accretion rates from the observed abundances, taking into account the mixing induced by the convective zones and the gravitational settling. The obtained values are different for DA and DB white dwarfs. Here we show that an important process was forgotten in all these computations: thermohaline mixing, induced by the inverse μ-gradient built during the accretion process. Taking this mixing into account leads to an increase of the derived accretion rates, specially for DA white dwarfs, and modifies the conclusions
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...
Heavy elements are observed in the atmospheres of many DA and DB white dwarfs, and their presence is...
Context. Recent observations of a large number of DA and DB white dwarfs show evidence of debris dis...
Context. Recent observations of a large number of DA and DB white dwarfs show evidence of debris dis...
International audienceContext. A non-negligible fraction of white dwarf stars show the presence of h...
Context. A non-negligible fraction of white dwarf stars show the presence of heavy elements in their...
Context. Recent observations of a large number of DA and DB white dwarfs show evidence of debris dis...
International audienceContext. A non-negligible fraction of white dwarf stars show the presence of h...
Context. Recent observations of a large number of DA and DB white dwarfs show evidence of debris dis...
International audienceContext. A non-negligible fraction of white dwarf stars show the presence of h...
International audienceContext. A non-negligible fraction of white dwarf stars show the presence of h...
Context. Recent observations of a large number of DA and DB white dwarfs show evidence of debris dis...
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...
Heavy elements are observed in the atmospheres of many DA and DB white dwarfs, and their presence is...
Context. Recent observations of a large number of DA and DB white dwarfs show evidence of debris dis...
Context. Recent observations of a large number of DA and DB white dwarfs show evidence of debris dis...
International audienceContext. A non-negligible fraction of white dwarf stars show the presence of h...
Context. A non-negligible fraction of white dwarf stars show the presence of heavy elements in their...
Context. Recent observations of a large number of DA and DB white dwarfs show evidence of debris dis...
International audienceContext. A non-negligible fraction of white dwarf stars show the presence of h...
Context. Recent observations of a large number of DA and DB white dwarfs show evidence of debris dis...
International audienceContext. A non-negligible fraction of white dwarf stars show the presence of h...
International audienceContext. A non-negligible fraction of white dwarf stars show the presence of h...
Context. Recent observations of a large number of DA and DB white dwarfs show evidence of debris dis...
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...
International audienceContext. A large fraction of white dwarfs show photospheric chemical compositi...