Why is it so difficult to find other Earths?
the first time astronomers are preparing a systematic search for life on
another Earth. And if they succeed in finding our planet's twins - there
will probably be more than just one - they will try to determine if there
is life on them.
Artist's impression of Sun and other planets
programme will start in 2015 with one of the most challenging telescopes
ever designed: ESA's Darwin. Darwin will be the first telescope with the
ability to see other terrestrial planets and will try to discover if they
are home to other living beings. Darwin offers a very real chance of success
in the search for extraterrestrial life.
Darwin will be
composed not just of one telescope, but six: six telescopes mounted on different
spacecraft. The whole Darwin system will actually be a 'flotilla' of seven
spacecraft separated by 100 to 500 metres, flying in formation with one of
them in the centre, plus an additional relay satellite.
reason for such a complex set-up is that the task of trying to find and study
a terrestrial planet cannot be accomplished by one space telescope alone.
Planets are small and opaque bodies circling a huge (as compared to the planet)
and enormously bright object: the parent star. It is like trying to see one
of our Solar System planets in the daytime using only the naked eye.
at a nearby star, the light from the star is a million times brighter than
the light from its planet - if it had one; any telescope, no matter how powerful,
will be dazzled by the star, and miss the planet. So basically, if astronomers
want to see the planet they will have to 'get rid of' the star. They can
do that by using several smaller telescopes working together.
will be able to separate the bright starlight from the faint planet light
by performing a technique called 'nulling interferometry'. The idea is that
all telescopes will point towards the same star at the same time, and retransmit
the light they detect to the central spacecraft.
In the central
spacecraft the light from the individual telescopes is combined in a certain
way and it results in the light from the bright star being cancelled out,
leaving only the light from the possible planet around the star.
trickiest part of all this is that the distances between the telescopes and
the central hub have to be controlled to about a millionth of a metre. This
'formation flying' will be demonstrated by another ESA mission, LISA Pathfinder
(previously called SMART-2) although it will not perform nulling interferometry.
Last update: 28 September 2004
| • ||Darwin overview (http://www.esa.int/esaSC/120382_index_0_m.html) |
| • ||LISA Pathfinder overview (http://www.esa.int/esaSC/120397_index_0_m.html) |
| • ||What is life, and how do we look for it? (http://www.esa.int/esaSC/SEM4TF9YFDD_index_0.html) |
| • ||Searching for the origins of life: Charles Darwin (http://www.esa.int/esaSC/SEMVBNYO4HD_index_0.html) |
| • ||L2, the second Lagrangian Point (http://www.esa.int/esaSC/SEMO4QS1VED_index_0.html) |