Tau Ceti's planets nearest around single, Sun-like star
From The BBC
19 December 2012
The nearest single Sun-like star to the Earth hosts five
planets - one of which is in the "habitable zone" where liquid water
can exist, astronomers say. Tau Ceti's planetary quintet - reported in an online
paper that will appear in Astronomy and Astrophysics - was found in existing
planet-hunting data. The study's refined methods of sifting through data should
help find even more far-flung worlds. The star now joins Alpha Centauri as a
nearby star known to host planets. In both those cases, the planets were found
not by spying them through a telescope but rather by measuring the subtle effects
they have on their host stars' light.
In the gravitational dance of a planet around a star, the
planet does most of the moving. But the star too is tugged slightly to and fro
as the planet orbits, and these subtle movements of the star show up as subtle
shifts in the colour of the star's light we see from Earth. This "radial
velocity" measurement is a tricky one; stars' light changes also for a
range of other reasons, and requires picking out the specifically planetary component
from all this "noise". Now, Hugh Jones of the University of
Hertfordshire and colleagues have refined their "noise modelling" in
order to subtract it, and thereby see the smallest signals hiding in the data -
starting with Tau Ceti. "It's a star on which we have a lot of data - an
order of magnitude more data than we have for pretty much any other star,"
Prof Jones told BBC News. "It's a good test case for how low can we go, what
size of signals can we pick up." The team started with data from three
planet-hunting missions: Harps, AAPS, and HiRes, all of which had data on Tau Ceti.
The trick to honing the technique was to put in "fake planets" - to
add signals into the messy data that planets should add - and find ways to
reduce the noise until the fake planets became more and more visible in the
data. "Putting all that together, we optimised a noise-modelling strategy
which allows us to recover our fake signals - but in the process of doing that,
we actually saw that we were finding signals as well," Prof Jones said -
actual planets. The quintet includes planets between two and six times the
Earth's mass, with periods ranging from 14 to 640 days. One of them, dubbed HD
10700e, lies about half as far from Tau Ceti as the Earth is from the Sun - and
because Tau Ceti is slightly smaller and dimmer than our Sun, that puts the
planet in the so-called habitable zone.
It is increasingly clear that in existing data from radial
velocity measurements there may be evidence of many more planets. On Monday,
Philip Gregory at the University of British Columbia in Canada posted an as-yet
unpublished paper to the arXiv repository, claiming to have seen three planets
in the habitable zone of Gliese 667C, one of three stars in a triple-star
system, 22 light-years away. It is also clear that in almost every direction we
look and in every way that we look, there are planets around stars near and
far. The catalogue currently stands at 854 confirmed planets, and is growing
with every new publication.
[854 confirmed planets is a pretty good haul by anyone’s standards.
One of the argument against life ‘out there’ is the apparent lack of stable
environments where life could have evolved. Such an argument, at least in my
opinion, no longer holds much credence. It truly appears that wherever we look
we find planets orbiting stars just as ours does. This shouldn’t really come as
any surprise knowing what we do about planet formation. But at least it’s nice
to have common sense confirmed by science.]
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