The Euclid telescope will look deep into the cosmos for clues to the nature of dark matter and dark energy.
These phenomena dominate the Universe, and yet scientists concede they know virtually nothing about them.
European Space Agency (ESA) member states made their decision at a meeting in Paris. Euclid should be ready for launch in 2019.
ESA nations had already selected the telescope as a preferred venture in October last year, but Tuesday’s “adoption” by the Science Programme Committee (SPC) means the financing and the technical wherewithal is now in place to proceed.
The cost to ESA of building, launching and operating Euclid is expected to be just over 600 million Euros ($760 million). Member states will provide Euclid’s visible wavelength camera and a near-infrared camera/spectrometer, taking the likely cost of the whole endeavor beyond 800 million Euros.
The US has been offered, and will accept, a junior role in the mission valued at around 5%. The American space agency (NASA) will pay for this by picking up the tab for the infrared detectors needed on Euclid. A memorandum of understanding to this effect will be signed between the agencies in due course.
“We have negotiated a detailed text with NASA, which both parties consider final, and it is ready for signature,” said Dr. Fabio Favata, Esa’s head of science planning.
“It will mean a small, commensurate number of US scientists will be welcomed into the Euclid Consortium,” he said.
The consortium is the team that will have access to Euclid’s data.
The adoption also will now trigger the release to industry of invitations to tender. Europe’s two big space companies – Astrium and Thales Alenia Space – are certain to bid to build Euclid.
A key task of the telescope will be to map the distribution of dark matter, the matter that cannot be detected directly but which astronomers know to be there because of its gravitational effects on the matter we can see.
Galaxies, for example, could not hold their shape were it not for the presence of some additional “scaffolding”. This is presumed to be dark matter – whatever that is.
Although this material cannot be seen directly, the telescope can plot its distribution by looking for the subtle way its mass distorts the light coming from distant galaxies. Hubble famously did this for a tiny patch on the sky – just two square degrees.
Euclid will do it across 15,000 square degrees of sky – a little over a third of the heavens.
Dark energy represents a very different problem, and is arguably one of the major outstanding issues facing 21st-Century science.
This mysterious force appears to be accelerating the expansion of the Universe. Recognition of its existence and effect in 1998 earned three scientists a Nobel Prize last year.
Euclid will investigate the phenomenon by mapping the three-dimensional distribution of galaxies.
The patterns in the great voids that exist between these objects can be used as a kind of “yardstick” to measure the expansion through time.
Again, ground-based surveys have done this for small volumes of the sky; Euclid however will measure the precise positions of some two billion galaxies out to about 10 billion light-years from Earth.
Euclid was selected as a “medium class” mission, meaning its cost to ESA should be close 475 million Euros. The fact that member states are going 125 million Euros beyond this “guide price” gives an indication of just how highly this mission is regarded.
“ESA have realized this science is so compelling, they just have to do it,” said Prof. Bob Nichol from the University of Portsmouth, UK.
“They’ve got a great design and great team, and bravo to them for getting on with it. Every so often you do things that are revolutionary, and Euclid will be one of those transformational missions.”
Flying Euclid will give Europe an important lead in a key area of astrophysics.
The Americans would dearly love to fly their own version of Euclid, but there is no money in the NASA budget currently to make this happen.
The US agency was recently gifted two Hubble-class spy telescopes by the National Reconnaissance Office, but even with this donation NASA is short of the hundreds of millions of dollars needed to turn one of them into a dark mission.
One key design difference between the US concept and Euclid would be the emphasis the American mission would place on using exploded stars, supernovas, as markers to measure the expansion rate of the Universe.
This was the approach used by the Nobel Prize winners (Saul Perlmutter and Adam Riess of the US and Brian Schmidt of Australia). It is not a technique in the primary science of Euclid, but Prof. Bob Nichol said it could be deployed at some stage.
“That option is still there and is still being debated,” he said.
“It could be done at the end of the main mission, if we get an extension. We could also do some supernova work during the mission. If certain parts of the sky that we want to look at are not immediately amenable, we could go look for supernovas.
“I believe we could do a fantastic supernova survey, and the Nobel Prize winners are very much involved in how to build such a programme into Euclid. They’re brilliant scientists and it would be awesome to have them on board.”
The instrument will produce pictures of the sky more than 100 times larger than Hubble can. This will minimise the amount of “stitching” of images required to build Euclid’s maps, making it easier to trace some of the subtle effects astronomers are trying to detect.
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