茄子直播

Canada gives $12 million to boost power of Large Hadron Collider

茄子直播 physicists eager to see what secrets the upgraded particle accelerator will reveal next
Photo of Kirsty Duncan
Science Minister Kirsty Duncan announced in Vancouver today that the federal government will give $10 million to the Large Hadron Collider, with TRIUMF giving another $2 million in kind (photo courtesy of Innovation, Science and Economic Development)

For more than a decade, a small team of high-energy physicists and graduate students from the University of Toronto have helped push the boundaries of scientific knowledge at the world鈥檚 most powerful particle accelerator.

Today, the Canadian government and TRIUMF, Canada鈥檚 particle accelerator centre, announced a $12-million investment to give a major performance boost to the Large Hadron Collider, known as the most massive and complex scientific experiment in human history.

The funding will go towards mission critical components in support of the new High-Luminosity Large Hadron Collider (HL-LHC or HiLumi), with Vancouver-based TRIUMF leading production of the Canadian components. HiLumi, which had a groundbreaking ceremony earlier this month, is expected to be operational by 2026.

鈥淚 am pleased to announce support for Canada鈥檚 outstanding researchers, engineers and technicians, whose combined efforts will further our reputation as a global leader in particle physics,鈥 said federal Science Minister Kirsty Duncan in a news release.

The Large Hadron Collider, a high-energy particle accelerator operated by the European Organization for Nuclear Research (CERN), runs in a 27-kilometre circular tunnel buried 100 metres below the surface of the earth underneath France and Switzerland.

Since opening in 2008, it has enabled scientists to recreate the conditions that existed a billionth of a second after the Big Bang 鈥 and to study them in a controlled way. In 2012, researchers announced the discovery of the Higgs boson, the so-called 鈥淕od particle鈥 that gives other particles mass and makes life possible.

鈥淩esearchers at the University of Toronto welcome this important support by the Canadian government to help make one of the world鈥檚 most important scientific projects possible,鈥 said Vivek Goel, 茄子直播鈥檚 vice-president of research and innovation.

鈥淔or more than a decade, 茄子直播 researchers have worked side-by-side with colleagues from universities across Canada, at TRIUMF, and around the world to push our knowledge of the fundamental structure of the universe. We look forward to being a part of even more critical breakthroughs as we continue to play a role with the HiLumi project for decades to come.鈥

One of the areas in which 茄子直播 has been involved is the ATLAS detector, one of the main experiments at the Large Hadron Collider.

Right now, the 茄子直播 team on ATLAS comprises six faculty, four postdoctoral researchers and 20 graduate students. In the past decade, approximately 50 茄子直播 students have worked at CERN, said 茄子直播 physics Professor Robert Orr.

In 2012, the 茄子直播 Atlas team (which included Orr and colleagues David Bailey, Peter Krieger, Pierre Savard, Pekka Sinervo, Richard Teuscher and William Trischuk) and their 2,500 ATLAS colleagues from 35 countries played a key role in the hunt for the Higgs boson.

The ATLAS detector, key components of which were built at 茄子直播, was designed to search for new particles in the highest mass collisions of high-energy proton collisions in the Large Hadron Collider.

茄子直播 faculty and graduate students sifted through the massive amounts of data from ATLAS using SciNet super computing resources at 茄子直播 to identify collisions containing Higgs boson candidates.

For HiLumi, the Canadian research community will use its world-leading cryomodule technology to build five new particle accelerator components known as crab cavity cryogenic modules, a TRIUMF news release explained.

These sophisticated, ultra low temperature boxes will house crab cavities that 鈥渞otate bunches of subatomic particles before they smash together, significantly increasing the number of collisions, or luminosity, of the Large Hadron Collider.鈥

The souped-up particle accelerator 鈥渋s very good news 鈥 something we鈥檝e been waiting for for quite some time,鈥 said Sinervo. 鈥淚t will ensure Canada has the official status at CERN that it so appropriately deserves given all the contributions Canadians have made to the experiments and the accelerator.鈥

The assembly of the crab cavity housing, a cryostat that will serve as a high-performance coldbox, keeping the cavities at their operating temperature (photo by Maximilien Brice/CERN)

The discovery of the Higgs boson was huge, confirming the existence of all the particles making up the Standard Model of particle physics, as well as the existence of the mechanism that gives mass to all the fundamental particles, Orr explained.

Nevertheless, much remains to be discovered and puzzles resolved, such as: Why the pattern of masses? What is dark matter?

 鈥淚n the context of the Large Hadron Collider, the most important puzzle is the surprisingly small mass of the Higgs,鈥 Orr said.

鈥淥ur theoretical understanding leads us to believe this small mass of the Higgs implies there should be a whole zoo of 鈥榮upersymmetric鈥 particles observable at the LHC. They have not been,鈥 he said.

鈥淚t could be that the intensity of the present LHC is insufficient to observe them. That is the main motivation for the HL-LHC 鈥 to increase the intensity of the machine to the point where we can observe these new particles.鈥

On the other hand, Orr said the non-observation of this supersymmetry may also be telling because it 鈥渨ould finally demonstrate that we have to think of some other mechanism that keeps the mass of the Higgs small.

鈥淭his could lead to a complete sea change in our understanding of the basic structure of matter.鈥

With files from Jenny Hall

 
 

 

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