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Earthshine Reflects on the Search for Extra Terrestrial Life

Some ideas just have a clear beauty of their own that satisfy something primal in us.

This one is far from being the most complicated concept, but it does have a symmetrical allure to it that is impossible to deny.

The recent surge in news releases from astronomical societies and universities speculating on the existence of extraterrestrial life has had at its heart the development of imaging techniques, and more importantly, analysis of data recieved by the latest generation of super-telescopes, both on, and orbiting, the Earth.

Now, using our own moon as a giant mirror, astronomers are using data gathered from the Earth as a calibration tool for determining the signs of potential life elsewhere in the cosmos.

Simple? Most brilliant ideas are.

VLT rediscovers life on Earth By looking at the moon

"We used a trick called earthshine observation to look at the Earth as if it were an exoplanet," says Michael Sterzik (ESO). "The Sun shines on the Earth and this light is reflected back to the surface of the Moon. The lunar surface acts as a giant mirror and reflects the Earth's light back to us — and this is what we have observed with the VLT."

The astronomers analyse the faint earthshine light to look for indicators, such as certain combinations of gases in the Earth's atmosphere [2], that are the telltale signs of organic life. This method establishes the Earth as a benchmark for the future search for life on planets beyond our Solar System.

The fingerprints of life, or biosignatures, are hard to find with conventional methods, but the team has pioneered a new approach that is more sensitive. Rather than just looking at how bright the reflected light is in different colours, they also look at the polarisation of the light [3], an approach called spectropolarimetry. By applying this technique to earthshine observed with the VLT, the biosignatures in the reflected light from Earth show up very strongly.

a bit like trying to study a grain of dust beside a powerful light bulb

Co-author of the study Stefano Bagnulo (Armagh Observatory, Northern Ireland) explains the advantages: "The light from a distant exoplanet is overwhelmed by the glare of the host star, so it's very difficult to analyse — a bit like trying to study a grain of dust beside a powerful light bulb. But the light reflected by a planet is polarised, while the light from the host star is not. So polarimetric techniques help us to pick out the faint reflected light of an exoplanet from the dazzling starlight."

The team studied both the colour and the degree of polarisation of light from the Earth after reflection from the Moon, as if the light was coming from an exoplanet. They managed to deduce that the Earth's atmosphere is partly cloudy, that part of its surface is covered by oceans and — crucially — that there is vegetation present. They could even detect changes in the cloud cover and amount of vegetation at different times as different parts of the Earth reflected light towards the Moon.

"Finding life outside the Solar System depends on two things: whether this life exists in the first place, and having the technical capability to detect it," adds co-author Enric Palle (Instituto de Astrofisica de Canarias, Tenerife, Spain). "This work is an important step towards reaching that capability."

"Spectropolarimetry may ultimately tell us if simple plant life — based on photosynthetic processes — has emerged elsewhere in the Universe," concludes Sterzik. "But we are certainly not looking for little green men or evidence of intelligent life."

The next generation of telescopes, such as the E-ELT (the European Extremely Large Telescope), may well be able to bring us the extraordinary news that the Earth is not alone as a bearer of life in the vastness of space.

Source: ESO


[1] Earthshine, sometimes called the old Moon in the new Moon's arms, can easily be seen with the unaided eye and is spectacular in binoculars. It is best seen when the Moon is a thin crescent, about three days before or after new Moon. As well as the bright crescent the rest of the lunar disc is visible, dimly illuminated by the bright Earth in the lunar sky.

[2] In the Earth's atmosphere, the main biologically produced gases are oxygen, ozone, methane and carbon dioxide. But these can all occur naturally in a planet's atmosphere without the presence of life. What constitutes a biosignature is the simultaneous presence of these gases in quantities that are only compatible with the presence of life. If life were suddenly to disappear and no longer continuously replenish these gases they would react and recombine. Some would quickly disappear and the characteristic biosignatures would disappear with them.

[3] When light is polarised, its component electric and magnetic fields have a specific orientation. In unpolarised light the orientation of the fields is random and has no preferred direction. The trick used in some 3D cinemas involves polarised light: separate images made with differently polarised light are sent to our left and right eyes by polarising filters in the glasses. The team measured the polarisation using a special mode of the FORS2 instrument on the VLT.



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