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  • richardmitnick 3:19 pm on January 3, 2011 Permalink | Reply
    Tags: , , , , National Public Radio   

    NPR Discovers the LHC at CERN 

    So, NPR has discovered the LHC at CERN

    Particle Pings: Sounds Of The Large Hadron Collider

    “This is what researchers at the ATLAS detector at the Large Hadron Collider expect data from a Higgs boson to look like. The Higgs boson is the subatomic particle that scientists say gives everything in the universe mass.”

    by Andrew Prince

    January 2, 2011

    “Deep beneath the border of France and Switzerland, the world’s most massive physics machine is sending subatomic particles smashing into each other at speeds nearing the speed of light. Physicists working with the 17-mile-long Large Hadron Collider hope it will help solve some of the universe’s mysteries.

    But first, researchers must overcome two very mundane hurdles: how to handle all of the data the LHC generates, and how to get non-scientists to care.

    Read the full article here.

  • richardmitnick 7:35 pm on December 28, 2010 Permalink | Reply
    Tags: , , , National Public Radio   

    From National Public Radio: They Finally Discovered ther LHC 


    So, National Public Radio has finally discovered the LHC at CERN.

    One of the goals of the ATLAS detector at the Large Hadron Collider is to search for the Higgs boson, a particle that scientists say gives everything in the universe mass. For scale, note the workers toward the bottom of the image.

    So, here is a wee audio. If you think I am wrong about them just discovering the LHC, listen to NPR at LHC. I am sure that they have been on this case before, but you would never know it.

    So, here is their article.

    “This year the world’s largest science experiment roared to life. Deep beneath the French-Swiss border, the Large Hadron Collider, or LHC, has spent the year accelerating subatomic particles to near the speed of light and smashing them together. These collisions are being used to push the theories of physics to their limits.

    It’s hard to explain how much the Large Hadron Collider means to physicists, but you get a sense of it when you speak to Srini Rajagopalen. He works on a giant, underground detector, called ATLAS, that records what’s produced in the collisions.

    “I’ve been working on ATLAS since 1996,” he says. “I was down in that pit when it was completely empty and it was wonderful, it was huge. I have watched the detector being built; I was involved in the research and development and the production and the testing — putting the whole thing together.”

    Thousands of researchers like him have devoted the best years of their lives to getting the LHC and its detectors up and running. They switched it on with great fanfare in 2008, and collisions were just days away when a faulty connection triggered an explosion in the machine’s liquid helium coolant. It was a devastating accident, though Steven Goldfarb, another researcher on ATLAS, puts the best face on it he can.

    “As a lesson to the world, we arranged for the LHC to have a small explosion so that they could learn about how … what happens when liquid helium expands,” he says in jest. “We didn’t really want this to happen, and it set us back for a good year or so.”

    ‘Instead Of Looking Out, We’re Looking In’

    This year, the LHC finally got going, and that means researchers can finally start looking for new particles. At the top of their list: one called the Higgs. Researchers think the Higgs explains the masses of all the other particles. Its discovery would be a major find, and everyone is excited. There’s even a song: The ATLAS Boogie.

    Think of the LHC as an underground racetrack. Instead of cars, the machine uses protons, the positive particles at the center of atoms. Two streams of protons travel in opposite directions around the 17-mile ring and collide inside four detectors the size of buildings.

    “It’s a bit harsh, this comparison, but imagine two cars crashing, and each car’s got passengers in it and they crash into each other, and bits fly everywhere, right?” says David Francis, a researcher working on ATLAS. “And then your job is to identify what the cars were beforehand and how many passengers were in each car.”

    Except it’s more than just the contents of the cars — smashing protons together actually makes new particles. Goldfarb likens turning on the collider to turning on the Hubble Space telescope.

    “When the Hubble turned and looked out into space, they had some ideas what they were going to see, but they also didn’t know, and that’s probably the coolest part of what we do,” Goldfarb says. “Instead of looking out, we’re looking in. And we’re looking for new things.”

    Sorting Through The Data

    The LHC produces hundreds of millions of collisions each second, and sorting through all those collisions to find something like the Higgs requires a lot of computers, which are kept inside a two-story building above the ATLAS detector.

    The interesting collisions get recorded to computers. Even throwing away most of the data from the collisions, researchers still end up with a lot of data.”

    So, the whole thing, article, video, sound clip, is here.

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