Huge lenses to observe cosmic dark energy

London, June 25: Astronomers have reached a milestone in the construction of one of the largest ever cameras to detect the mysterious dark energy component of the Universe, with pieces of glass for the five unique lenses of the camera having been shipped from the US to France to be shaped and polished into their final form.

Each milestone in the completion of this sophisticated camera is bringing scientists closer to detecting the mysterious and invisible matter that cosmologists estimate makes up around three quarters of our Universe and is driving its accelerating expansion.

Observations suggest that roughly 4% of the Universe is made up from ordinary matter and 22% from Dark Matter. This leaves 74% unaccounted for - the so-called Dark Energy.

The Dark Energy Survey (DES) camera will map 300 million galaxies using the Blanco 4-meter telescope - a large telescope with new advanced optics at Chile's Cerro Tololo Inter-American Observatory.

The vast DES galaxy map will enable the astronomers to measure the Dark Energy far more precisely than current observations.

According to Professor Ofer Lahav, head of the UCL Astrophysics Group, “Dark Energy is one of the biggest puzzles in the whole of Physics, going back to a concept proposed by Einstein 90 years ago. The DES observations will tell us if Einstein was right or if we need a major shift in our understanding of the universe.”

The glass for the five lenses was manufactured in the US before being shipped to France where the lenses will be polished to a smoothness level of one millionth of a centimetre.

“The polishing and assembly of the five DES lenses will be a major technological achievement, producing one of the largest cameras on Earth,” said Dr Peter Doel of the Optical Science Laboratory at UCL.

This level of polishing across such large lenses is far more demanding than for normal eye glasses.

The lenses will then be sent to the Optical Science Laboratory at UCL in London for assembly into the camera and from there to the telescope in Chile, where observations will start in 2011 and will continue until 2016. (ANI)