CERN Wants to Build a New $23 Billion Super Collider That’s 100 Kilometers Long

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A visitor takes a phone photograph of a large back lit image of the Large Hadron Collider (LHC) at the Science Museum’s ‘Collider’ exhibition on November 12, 2013 in London, England.  Peter Macdiarmid, Getty Images

The Large Hadron Collider, at 27 kilometres in length, is currently the worlds highest energy particle collider. It’s also literally the largest machine ever built by human hands. But CERN, the European Organization for Nuclear Research behind the collider, is planning to build a second, even larger collider.

This one could end up being 100km, almost four times the size, and may cost up to $23 billion to produce. The collider will be used to further study the Higgs Boson particle, a particle that was theorized by Peter Higgs and five other scientists back in 1964, and essentially discovered as a particle back in 2012 using the Large Hadron Collider.

After the plan was approved by an independent panel in March, the CERN council approved plans to build a larger collider on June 19.

“I think it’s a historic day for CERN and particle physics, in Europe and beyond,” said CERN director-general Fabiola Gianotti.

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Now all that remains is paying for it, but raising $23 billion is no easy task. But there’s plenty of time to figure that out. CERN is hoping to start construction in 2038.

The Large Hadron Collider took a decade to build and cost around $4.75 billion. Most of that money came from European countries like Germany, the UK, France and Spain. Some believe that countries like the US and Japan might need to pony up for this second collider if it’s actually going to get built.

Mark Serrels headshot

Fabiola Gianotti, Director General of CERN, talks about the past, present and future of the biggest particle accelerator on the planet – the 27 km circumference Large Hadron Collider. The LHC, which is currently being upgraded, will operate until 2037. and in this film Fabiola talks about the linear collider to smash together electrons and positrons in a tunnel up to 50 km, and the Future Circular Collider, a 100km ring for electron-positron and proton-proton collisions.
Images provided by CERN #CERN #LHC #HiggsBoson

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