The Connection between Planets and White Dwarf Stars
Gilles Fontaine
Université de Montréal
In the last 15 years or so, evidence has been mounting in favor of
the proposition that planets around white dwarfs are probably quite
common. The evidence is strong but indirect, and rests on the detection
of heavy elements in the atmospheres of many relatively cool white
dwarfs. Given the very high efficiency of element sedimentation in
white dwarfs, particularly in cooler objects (with no residual stellar
winds and with negligible radiative levitation), these stars should
show atmospheres with pure H or pure He, and so the source of the heavy
elements must necessarily be extrinsic to these stars. Very often, such
"polluted" white dwarfs are surrounded by dusty or gaseous disks, which
have specific infrared signatures. These short-lived disks (10^4 to 10^6
yr) are interpreted as the products of tidally-disrupted planetesimals
and/or asteroids that come crashing down onto a white dwarf more or less
randomly in time as the result of gravitational perturbations of asteroid
orbits due to unseen planets around that white dwarf. The disk material
ultimately "rains" onto the white dwarf and pollutes its atmosphere during
a few million years typically. Since the settling timescale varies from
one heavy element to another, the "instantaneous" chemical composition
in the atmosphere of the host white dwarf is not generally that of the
primordial material. A current challenge is to decipher the observed
abundances of the polluting elements in terms of the original chemical
composition of the planetary debris. I will review the basic physics
and provide an updated view of the so-called accretion-diffusion model
needed to interpret the observed abundances of planetary elements in the
atmospheres of white dwarfs. I will show that the potential for using
polluted white dwarfs as "laboratories" for inferring the *bulk chemical
composition* of planetesimals, asteroids, or comets is immense.
| Date: | Tuesday, 11 November 2014 |
| Time: | 15:30 |
| Where: | McGill University |
| | Ernest Rutherford Physics Building, R.E. Bell Conference Room (room 103) |
| Contact: | Gilles Fontaine |
|
