Washington, August 8 : CERN (European Organization for Nuclear Research) has announced that the Large Hadron Collider (LHC), which lies under the Franco-Swiss border near Geneva, Switzerland, would start its operations on September 10 this year.
The LHC is the world's most powerful particle accelerator, producing beams seven times more energetic than any previous machine, and around 30 times more intense when it reaches design performance, probably by 2010.
Housed in a 27-kilometre tunnel, it relies on technologies that would not have been possible 30 years ago.
On September 10, the first attempt to circulate a beam would be made inside the LHC.
Starting up such a machine is not as simple as flipping a switch. Commissioning is a long process that starts with the cooling down of each of the machine's eight sectors.
This is followed by the electrical testing of the 1600 superconducting magnets and their individual powering to nominal operating current.
These steps are followed by the powering together of all the circuits of each sector, and then of the eight independent sectors in unison in order to operate as a single machine.
By the end of July, this work was approaching completion, with all eight sectors at their operating temperature of 1.9 degrees above absolute zero (-271°C).
The next phase in the process is synchronization of the LHC with the Super Proton Synchrotron (SPS) accelerator, which forms the last link in the LHC's injector chain.
Timing between the two machines has to be accurate to within a fraction of a nanosecond.
A first synchronization test is scheduled for the weekend of 9 August, for the clockwise-circulating LHC beam, with the second to follow over the coming weeks.
Tests will continue into September to ensure that the entire machine is ready to accelerate and collide beams at an energy of 5 TeV per beam, the target energy for 2008.
The LHC will see its first circulating beam on 10 September at the injection energy of 450 GeV (0.45 TeV).
Once stable circulating beams have been established, they will be brought into collision, and the final step will be to commission the LHC's acceleration system to boost the energy to 5 TeV, taking particle physics research to a new frontier.
"We're finishing a marathon with a sprint," said LHC project leader Lyn Evans. "It's been a long haul, and we're all eager to get the LHC research programme underway," he added.