WWW.ASTRONOMY.COM 25leftover heat means they’ll spend billions of
years cooling.
Unlike stars, the atmospheres of white
dwarfs are fairly pristine. Astronomers
detect only hydrogen and occasionally
helium, which rise to the top. Other mate-
rial sinks quickly. So when scientists see
something like carbon or nitrogen polluting
the atmosphere, they know something fall-
ing onto the star must have delivered it.
“A white dwarf acts like a blank piece of
paper,” Farihi says. “When stuff falls on
there, we can see what it’s made of.”
And white dwarfs are voracious eaters.
As material orbiting them draws closer, the
object’s intense gravity shreds it. While
Sun-like stars produce winds that drive gas
away, the dead stars are silent, with no
gales that can carry debris to freedom.
“Once you’re trapped in the gravita-
tional field of a white dwarf, it doesn’t mat-
ter what form you’re in — eventually,
you’re going to be gobbled up by that white
dwarf,” Zuckerman said.
That’s when the science starts. Probing
the outer layers of white dwarfs reveals the
guts of their latest meals, consumed any-
where from 10,000 to 100,000 years earlier.
Disks of debris surround white dwarfs.
Recently, astronomers spotted a disinte-
grating Ceres-sized asteroid orbiting a
white dwarf, suggesting that much of the
material in its atmosphere could have come
from the destroyed minor planet.
Because white dwarfs shred objects spi-
raling into them, it can be challenging to
say whether material came from a full
planet or just an asteroid-sized chunk. But
over the past decade, observations of the
last meals of white dwarfs have made it
obvious that water is common in dying
systems, suggesting it’s
an ingredient in plan-
ets as well.Minor planet
meal
As it became more
obvious that white
dwarfs were snacking
on dying worlds, many scientists wanted
another look. In 2012, Farihi and his col-
leagues captured new images of the white
dwarf GD 61, taking a more in-depth look
with Hubble and the Keck I and II tele-
scopes in Hawaii. After studying the chem-
istry of the white dwarf ’s atmosphere, the
team announced that GD 61 had recently
eaten a water-rich object. For the first time,
water was identified as a major ingredient
in an object outside the solar system.
The chemistry of the Vesta-sized objectsuggested that it was once part of an aster-
oid belt when GD 61 was a star. While it’s
impossible to tell if the water arrived as a
solid, liquid, or gas, it was most likely
trapped inside of rocks.
Uri Malamud and Hagai Perets,
researchers at the Israel Institute of
Technology, modeled what might happen
to water both on and in an asteroid-sized
object as its star swells into a red giant.They found that, for all but the most dis-
tant rocky bodies, any surface water prob-
ably evaporates and is driven off as the star
becomes a giant. But water trapped in
rocks could survive.
Since GD 61 was found consuming an
asteroid-like object, a handful of other
white dwarfs have shown the same eating
habits. According to Boris Gänsicke, pro-
fessor of physics at the University of
Warwick, the white dwarf snacks spotted
before this year all looked like objects fromThis artist’s impression shows a massive cometlike object falling into the white dwarf WD 1425+540, which lies in the constellation Boötes some
170 light-years away. NASA/ESA/Z. LEVY (STSCI)
Researchers are unraveling the mystery
of how water got to Earth, and they
assume a similar process worked for
planets around other stars.