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      <title>C.E.R.N. : Our Experience by Giulio Suppa</title>
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      <description>Our journey of discovery of the particles</description>
      <language>en-us</language>
      <pubDate>2017-04-06 20:26:07 UTC</pubDate>
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         <title>What is C.E.R.N.?</title>
         <author>giuliosuppa</author>
         <link>https://padlet.com/giuliosuppa/1k7co048qcxx/wish/165262891</link>
         <description><![CDATA[<div>At CERN, the European Organization for Nuclear Research, physicists and engineers are probing the fundamental structure of the universe. They use the world's largest and most complex scientific instruments to study the basic constituents of matter – the fundamental particles. The particles are made to collide together at close to the speed of light. The process gives the physicists clues about how the particles interact, and provides insights into the fundamental laws of nature.</div>]]></description>
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         <pubDate>2017-04-06 20:31:11 UTC</pubDate>
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         <title>ATLAS</title>
         <author>giuliosuppa</author>
         <link>https://padlet.com/giuliosuppa/1k7co048qcxx/wish/165263902</link>
         <description><![CDATA[<div>ATLAS is one of the four major experiments at the <a href="http://home.web.cern.ch/topics/large-hadron-collider">Large Hadron Collider</a> (LHC) at <a href="http://cern.ch/">CERN</a>. It is a general-purpose particle physics experiment run by an international collaboration and, together with <a href="http://cms.web.cern.ch/">CMS</a>, is designed to exploit the full discovery potential and the huge range of physics opportunities that the LHC provides.<br>ATLAS physicists test the predictions of the <a href="http://home.web.cern.ch/about/physics/standard-model">Standard Model</a>, which encapsulates our current understanding of what the building blocks of matter are and how they interact. These studies can lead to ground-breaking discoveries, such as that of the Higgs boson, physics beyond the Standard Model and the development of new theories to better describe our universe.</div>]]></description>
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         <pubDate>2017-04-06 20:38:39 UTC</pubDate>
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         <title>CMS</title>
         <author>giuliosuppa</author>
         <link>https://padlet.com/giuliosuppa/1k7co048qcxx/wish/165265922</link>
         <description><![CDATA[<div>The CMS detector uses a huge solenoid magnet to bend the paths of particles from collisions in the LHC.<br>The <a href="https://cms.cern/detector">Compact Muon Solenoid</a> (CMS) is a general-purpose detector at the<a href="https://home.cern/about/accelerators/large-hadron-collider"> Large Hadron Collider</a> (LHC). It has a broad physics programme ranging from studying the <a href="https://home.cern/about/physics/standard-model">Standard Model</a> (including the <a href="https://home.cern/topics/higgs-boson">Higgs boson</a>) to searching for <a href="https://home.cern/about/physics/extra-dimensions-gravitons-and-tiny-black-holes">extra dimensions</a> and particles that could make up <a href="https://home.cern/about/physics/dark-matter">dark matter</a>. Although it has the same scientific goals as the <a href="https://home.cern/about/experiments/atlas">ATLAS experiment</a>, it uses different technical solutions and a different magnet-system design.</div><div><br>The CMS detector is built around a huge solenoid magnet. This takes the form of a cylindrical coil of superconducting cable that generates a field of 4 tesla, about 100,000 times the magnetic field of the Earth. The field is confined by a steel “yoke” that forms the bulk of the detector’s 14,000-tonne weight.</div>]]></description>
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         <pubDate>2017-04-06 20:54:17 UTC</pubDate>
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         <title>The Large Hadron Collider (LHC) </title>
         <author>giuliosuppa</author>
         <link>https://padlet.com/giuliosuppa/1k7co048qcxx/wish/165266028</link>
         <description><![CDATA[<div>The Large Hadron Collider (LHC) is the world’s largest and most powerful <a href="http://home.cern/about/how-accelerator-works">particle accelerator</a>. It first started up on 10 September 2008, and remains the latest addition to CERN’s <a href="http://home.cern/about/accelerators">accelerator complex</a>. The LHC consists of a 27-kilometre ring of superconducting magnets with a number of accelerating structures to boost the energy of the particles along the way.</div><div><br>Inside the accelerator, two high-energy particle beams travel at close to the speed of light before they are made to collide. The beams travel in opposite directions in separate beam pipes – two tubes kept at <a href="http://home.cern/about/engineering/vacuum-empty-interplanetary-space">ultrahigh vacuum</a>. They are guided around the accelerator ring by a strong magnetic field maintained by <a href="http://home.cern/about/engineering/pulling-together-superconducting-electromagnets">superconducting electromagnets</a>. The electromagnets are built from coils of special electric cable that operates in a superconducting state, efficiently conducting electricity without resistance or loss of energy. This requires chilling the magnets to ‑271.3°C – <a href="http://home.cern/about/engineering/cryogenics-low-temperatures-high-performance">a temperature colder than outer space</a>. For this reason, much of the accelerator is connected to a distribution system of liquid helium, which cools the magnets, as well as to other supply services.</div>]]></description>
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         <pubDate>2017-04-06 20:55:11 UTC</pubDate>
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         <title>This is us!</title>
         <author>giuliosuppa</author>
         <link>https://padlet.com/giuliosuppa/1k7co048qcxx/wish/165266492</link>
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         <pubDate>2017-04-06 20:59:22 UTC</pubDate>
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         <title></title>
         <author>giuliosuppa</author>
         <link>https://padlet.com/giuliosuppa/1k7co048qcxx/wish/165268229</link>
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         <pubDate>2017-04-06 21:13:25 UTC</pubDate>
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         <title></title>
         <author>giuliosuppa</author>
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         <pubDate>2017-04-06 21:14:34 UTC</pubDate>
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