Saturday, April 22, 2023

Europe’s CERN takes first steps toward building giant particle accelerator

Nuclear research organization says goal of Future Circular Collider is to ‘push the energy and intensity frontiers’ of particle smashers ‘in the search for new physics’

By AGNÈS PEDRERO
22 April 2023, 

A radio frequency particle accelerator is displayed in an exhibition during a press tour at the European Organization for Nuclear Research (CERN) on the Future Circular Collider (FCC) feasibility study, in Geneva, on April 19, 2023. (Fabrice Coffrini/AFP)

GENEVA (AFP) — Europe’s CERN laboratory has taken its first steps toward building a huge new particle accelerator that would eclipse its Large Hadron Collider — and hopes to see light at the end of the tunnel.

The Future Circular Collider (FCC) particle smasher would be more than triple the length of the LHC, already the world’s largest and most powerful particle collider, constructed in the hope of revealing secrets about how the universe works.

The FCC would form a new circular tunnel under France and Switzerland, 91 kilometers (56.5 miles) long and about five meters (16 feet) in diameter.

“The goal of the FCC is to push the energy and intensity frontiers of particle colliders, with the aim of reaching collision energies of 100 tera electron volts, in the search for new physics,” CERN says.

The tunnel would pass under the Geneva region and its namesake lake in Switzerland, and loop around to the south near the picturesque French town of Annecy.
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Eight technical and scientific sites would be built on the surface, with seven in France and one in Geneva, CERN engineer Antoine Mayoux told reporters this week.


CERN Radio-frequency head Eric Montesinos gestures next to a map of the actual Large Hadron Collider (LHC) during a press trip at the European Organization for Nuclear Research CERN on the Future Circular Collider (FCC) feasibility study, in Geneva, on April 19, 2023. (Fabrice Coffrini/AFP)

After carrying out a theoretical analysis, “we are now embarking for the first time on field activities” to study potential environmental issues, he said, with seismic and geotechnical studies to follow.
Mysteries of the universe

Once the feasibility studies are completed, CERN’s member states — 22 European countries plus Israel — will decide in the next five to six years on whether to build the FCC.

The FCC would accelerate electrons and positrons until 2060, and then hadrons until 2090, as it seeks answers to many remaining questions of fundamental physics, with about 95 percent of the mass and energy of the universe still a mystery.

CERN’s Large Hadron Collider — a 27-kilometer (17-mile) ring running about a hundred meters below ground — has already begun chipping away at the unknown.

Among other things, it was used to prove the existence of the Higgs Boson — dubbed the God particle — which broadened the understanding of how particles acquire mass, and earned two scientists who had theorized its existence the 2013 Nobel physics prize.


A simulated data projection of a Higgs boson collision. (Photo credit: CC BY Wikipedia)

But the LHC, which began operating in 2010, is expected to have run its course by around 2040.

“The problem with accelerators is that at some point, no matter how much data you accumulate, you hit a wall of systematic errors,” CERN physicist Patrick Janot said.

“Around 2040-2045, we will have taken away all the substance of the precision possible with the LHC,” he said.

“It will be time to move on to something much more powerful, much brighter, to better see the contours of the physics that we are trying to study.”
Opening doors to the future

Some researchers fear that this huge project will gobble up funds that could be used for other, less abstract physics research.

But others insist that pushing fundamental physics forward is vital for advances in applied physics as well.

“The benefits of our research are extremely important,” said Malika Meddahi, CERN’s deputy director for accelerators and technology, citing as examples medical imaging and the fight against tumors.

Janot agreed: “The day the electron gun was invented, it was the beginning of accelerators; we didn’t know it was going to give rise to television. The day general relativity was discovered, we didn’t know it was going to be used to run GPS.”

A projection on fundamental particles is seen during a press trip at the European Organization for Nuclear Research CERN on the Future Circular Collider (FCC) feasibility study, in Geneva, on April 19, 2023. (Fabrice Coffrini/AFP)

Harry Cliff, a particle physicist at Britain’s University of Cambridge, acknowledged that the FCC was an “expensive bit of kit.”

But he noted that it would be built by “a large international collaboration of nations working together over a very long period of time.”

“Particle physics isn’t about discovering new particles — it’s about understanding the fundamental ingredients of nature and the laws that govern them.”

Competition from China

More than 600 institutes and universities around the world use CERN’s facilities, and are responsible for funding and carrying out the experiments they take part in.

However, CERN has some competition: China announced in 2015 that it intended to start work within a decade on building the world’s largest particle accelerator.

Michael Benedikt, who is heading up the FCC feasibility studies, told AFP that CERN had more than 60 years of experience in developing long-lasting research infrastructure.

And political stability in Europe helped to “minimize the development risk for such long-term projects,” he said.

Meddahi also highlighted Europe’s leading position in the field, but warned that “China displays the same ambition.”

“Let’s be vigilant and be sure that we are not on the verge of a change in this hierarchy,” she said.

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