THE Large Hadron Collider (LHC) at CERN near Geneva, Switzerland, will start
running again after a three-year shutdown and delays due to the covid-19
pandemic. The particle collider – known for its role in the discovery of the
Higgs boson, which gives mass to all other fundamental particles – will
return in 2022 with upgrades that give it a power boost.
Work has been under way to conduct tests on the collider and calibrate new
equipment. Now, it is gearing up for experiments that could give physicists
the data needed to expand the standard model, our best description of how
particles and forces interact.
Phil Allport at the University of Birmingham in the UK says the upgrades
could allow new measurements that give us insight into the way the Higgs
boson decays, leading to a better understanding of how it fits into the
standard model.
“These measurements shed light on what’s happening at the highest energies
that we can reach, which tells us about phenomena in the very early
universe,” he says. They will also allow us to test ideas that try to
account for things that aren’t fully described by the standard model, he
says.
This includes mysteries that have plagued physicists for decades, such as
the so-called hierarchy problem, which deals with the vast discrepancy
between the mass of the Higgs and those of other fundamental particles, plus
dark energy and dark matter, the unexplained phenomena that make up most of
the universe.
“All of these things require extensions to the standard model of particle
physics to accommodate, and all of those theories make predictions. And the
best place to look to test those predictions is usually in the highest
energies achievable,” says Allport. He says the LHC upgrades also pave the
way to entirely new observations that signal a departure from the standard
model.
Part of the upgrade work has been to increase the power of the injectors
that supply highly accelerated particle beams to the collider. Prior to the
last shutdown in 2018, protons could reach an energy of 6.5
teraelectronvolts, but the upgrades mean this can now be pushed to 6.8
teraelectronvolts.
Rende Steerenberg at CERN says that these more powerful beams will cause
collisions at higher energies than ever before, and other upgrades in the
future will also allow more particles to be collided at the same time.
There are already plans for further improvements in 2024, which will narrow
the LHC’s beams and drastically increase the number of collisions that take
place. The 2018 run saw around 40 collisions every time a pulse of protons
passed each other, but upgrades will push this to between 120 to 250. At
that point, the LHC will take on a new name, the High Luminosity Large
Hadron Collider, and it should begin experiments in 2028.
There are still many tests to be run before the power of the new components
can be unleashed. Scientists at CERN hope to finish these by late February
and then slowly ramp up to a small number of full-power collisions in May.
The frequency of these collisions will be increased in June, which is when
Steerenberg says “meaningful” physics will begin.