skyandtelescope.com • JUNE 2019 13
pLOFAR captured radio emission (orange) in
galaxy cluster Abell 1314, superimposed on
an inverted visible-light image (grayscale). The
extended radio emission in this image comes
from past collisions with other clusters.
SCIENTISTS STUDYING New Hori-
zons images of craters on Pluto and its
moon Charon have concluded that the
outer solar system contains fewer small
objects than expected.
In the March 1st Science, Kelsi Singer
(Southwest Research Institute) and
colleagues tallied up the craters on old,
smooth surfaces on Pluto and its largest
moon. If the Kuiper Belt is — or was —
crowded enough for frequent collisions,
astronomers ought to have seen many
more craters formed by small objects
than by big ones.
But what Singer’s team found was
that craters less than 13 km (8 miles)
across were surprisingly scarce on Pluto
and Charon. Geological processes such
as cryovolcanism and glacial activity
would have erased the bigger craters
along with the small ones, the scien-
tists say. Moreover, there are no known
processes that would preferentially erase
smaller craters. The dearth of small
craters translates to a lack of Kuiper
THE LOW FREQUENCY ARRAY
(LOFAR), which is exploring the sky
at low radio frequencies, has found
325,694 new radio sources, most of
them faraway galaxies.
These results represent the fi rst
phase of LOFAR’s ambitious Two-metre
Sky Survey and appeared February in a
special issue of Astronomy & Astrophys-
ics. The accompanying high-resolution
mosaic images, which include radio
emission at frequencies between 120
and 168 MHz, show details as fi ne as 6
arcseconds across. Under ideal circum-
stances, LOFAR may return images with
a resolution of 0.5 arcsecond.
About 70% of the new radio sources
have visible-light counterparts in the
Sloan and Pan-STARRS surveys, provid-
SOLAR SYSTEM
Pluto & Charon Missing Small Craters
uSinger and colleagues
counted craters on the
smooth, geologically stable
Vulcan Planitia on Charon,
shown here.
Belt objects spanning less than 1 to
2 kilometers.
The fi ndings appear to contradict
results from a recent star-monitoring
survey conducted by Ko Arimatsu
(National Astronomical Observatory
of Japan) and colleagues, who spotted
a single stellar occultation and inter-
preted it as a kilometer-size Kuiper
Belt object passing in front of a back-
ground star (S&T: May 2019, p. 9).
Since even a single fi nd
was unexpected, the
scientists argued that
the discovery points to
an excess of kilometer-
size objects in the outer
solar system. However,
Arimatsu acknowledges
that extrapolation from
a single event is diffi cult; one kilometer-
size object could still be consistent with
the New Horizons results.
If small objects — and thus colli-
sions — are truly scarce in the Kuiper
Belt, then its population contains
isolated and pristine remains of the
early solar system. Further study of the
population’s size distribution could help
scientists distinguish between different
theories of planet formation.
■ MONICA YOUNG
- Read more about both studies at
https://is.gd/smallKBO.
ing astronomers with rough distance
estimates. Most of the sources are dis-
tant galaxies whose central black holes
power jets.
LOFAR sees jet activity on much
longer time scales than existing, higher-
frequency radio surveys. The radio
waves from the galaxies that LOFAR
has found are primarily generated when
electrons spiral along magnetic fi eld
lines that thread the jets. After these
electrons have been spiraling for a
while, they slow down and emit lower-
frequency radio waves.
One intriguing result is that all the
most massive galaxies appear to exhibit
long-lasting jet activity close to their
cores, which suggests that their central
black holes are feeding more or less
continuously. The new observations will
shed light on the evolution of super-
massive black holes over cosmic time.
Eventually, astronomers’ goal is to fi nd
the very fi rst supermassive black holes
in the universe.
There’s much more to come. The fi rst
phase of the survey covers 424 square
degrees, centered on the handle of the
Big Dipper. But that’s only about 2%
of the eventual survey area, which will
cover the whole northern sky.
■ GOVERT SCHILLING
GALAXIES
Radio Survey Finds
Hundreds of Thousands
of Galaxies
100 arcsec
Vulcan Planitia
150 km 20 km
SUR 93 miles 12 miles
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