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Most Popular Large Hadron Collider Websites

Cern.ch: Cern | Accelerating Science

cern.ch

CERN, the European Organization for Nuclear Research, is one of the world’s largest and most respected centres for scientific research. Its business is fundamental physics, finding out what the Universe is made of and how it works.

Popularity: Tags: physics, cern, large hadron collider, lhc  

Home.cern: Cern | Accelerating Science

home.cern

CERN, the European Organization for Nuclear Research, is one of the world’s largest and most respected centres for scientific research. Its business is fundamental physics, finding out what the Universe is made of and how it works.

Popularity: Tags: physics, cern, large hadron collider, lhc  

Atlas.ch: Atlas Experiment at Cern | Exploring The Secrets of Our Universe

atlas.ch

Official public website for the ATLAS Experiment at CERN

Popularity: Tags: atlas, atlas experiment, the atlas experiment, cern  

Meltronx.com: * Meltronx Lhc Panels *

meltronx.com

Customize Meltronx with any of 85 CERN Real-Time, Clickable Panels

Popularity: Tags: large hadron collider, cern, panels, lhc  

Lhc-facts.ch: Lhc - Large Hadron Collider

www.lhc-facts.ch

LHC - Daten, Fakten und Funktionen des neuen Teilchenbeschleunigers von CERN bei Genf. Ein ausf hrlicher Einblick in die komplexeste Maschine der Welt.

Popularity: Tags: large hadron collider, energie, cern, lhc  

Weltmaschine.de: Weltmaschine

www.weltmaschine.de

Weltmaschine - das ist der Large Hadron Collider LHC, ein Teilchenbeschleuniger am Forschungszentrum CERN in Genf, der im September 2008 den Betrieb aufgenommen hat.

Popularity: Tags: lhc, large hadron collider, cern  

Hasthelhcdestroyedtheearthyet.com: Has The Lhc Destroyed The Earth Yet?

hasthelhcdestroyedtheearthyet.com

If the Large Hadron Collider has completely decimated the world, this website will not tell you that it hasn't.

Popularity: Tags: large, lhc, destroy, world  

Lhcfeed.com: クロムハーツ 22k ピアス&ネックレス通販サイト

www.lhcfeed.com

日本で未登場の最新クロムハーツ ネックレス ゴールド/ブレスレットがいち早く入荷!入手困難激安挑戦中!今すぐチェックしましょう~~

Popularity: Tags: feed, live feed, large hadron collider  

Bet-on-the-higgs.com: Home

www.bet-on-the-higgs.com

Popularity: Tags: higgs particle, higgs boson, lhc, large hadron collider  

Lhcdefense.com: _8888yh.com_www.111suncity.com

www.lhcdefense.com

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Popularity: Tags: large hadron collider, black holes  

Risk-evaluation-forum.org: Risk Evaluation Forum

www.risk-evaluation-forum.org

Discussions of catastrophic risks.

Popularity: Tags: cern, black hole, large hadron collider, lhc  

Iansample.com: Home | Ian Sample

www.iansample.com

Massive, by Guardian Science Correspondent Ian Sample is the story of the hunt for the higgs particle, which will reveal not only the secret of mass, but a door to hidden realms of the universe.

Popularity: Tags: higgs particle, higgs boson, higgs field, god particle  

Largehadroncollider.net: Large Hadron Collider

www.largehadroncollider.net

The Large Hadron Collider Explained, The Large Hadron Collider Returns in the Hunt for New Physics, How Does the Large Hadron Collider Work?, The LHC - The Large Hadron Collider. What is the LHC, how does it work?

Popularity: Tags: large hadron collider, worldnews, world news, video  

Shasthram.com: Young Scientist

shasthram.com

Young Scientist | A science magazine for students and the general reader.

Popularity: Tags: scientist, basic science, popular science, young scientist  

Alexandermitov.com: Welcome to Alexander Mitov's Website

www.alexandermitov.com

I am a theoretical physicist. I develop cutting-edge precision methods to study elementary particles produced at colliders like the LHC and the Tevatron.

Popularity: Tags: perturbative qcd, lhc, large hadron collider, hi  

Lhcus.org: Lhcus | Us/lhc - Large Hadron Collider

www.lhcus.org

An international team has installed the Large Hadron Collider at CERN in a 27-kilometer ring buried deep below the countryside on the outskirts of Geneva, Switzerland. The LHC is the worlds most powerful particle accelerator. Its very-high-energy proton collisions are yielding extraordinary discoveries about the nature of the physical universe. Beyond revealing a new world of unknown particles, the LHC experiments could explain why those particles exist and behave as they do. The LHC experiments could reveal the origins of mass, shed light on dark matter, uncover hidden symmetries of the universe, and possibly find extra dimensions of space. Billions of protons in the LHCs two counter-rotating particle beams smash together at an energy of 14 trillion electron volts. After injection into the accelerator, the hair-thin proton beams accelerate to a whisker below the speed of light. They circulate inside for hours, guided around the LHC ring by thousands of powerful superconducting magnets. For most of their split-second journey around the ring, the beams travel in two separate vacuum pipes, but at four points they collide in the hearts of the main experiments, known by their acronyms: ALICE, ATLAS, CMS and LHCb. The experiments complex detectors will eventually see up to 600 million collisions per second, as the energy of colliding protons transforms fleetingly into a plethora of exotic particles. In the data from these ultrahigh-energy collisions scientists from universities and laboratories around the world search for the tracks of particles whose existence could transform humankinds understanding of the universe we live in. What is the Large Hadron Collider? The LHC at CERN, the European Organization for Nuclear Research, is the largest, most complex and most powerful particle accelerator ever built. It operates in a circular 27-kilometer tunnel about 100 meters underground, between Switzerlands Lake Geneva and Frances Jura mountains. The LHC will create almost a billion proton-proton collisions per second at an energy of 14 trillion electron volts, seven times higher than any accelerator has previously achieved. At the heart of the LHC are superconducting magnets made of niobium-titanium. Cooled to nearly absolute zero by superfluid helium, the coils of these magnets conduct electricity without resistance. The LHCs 1,232 dipole magnets guide the opposing beams of speeding protons in their circular orbits. Several thousand additional magnets fine-tune the beams orbits, and some 400 quadrupole magnets focus the protons into hair-thin beams that collide within the LHC experiments. Cryogenic, electronic and information systems of unprecedented scope and complexity support the LHCs round-the-clock operation. The US and the LHC Accelerator The US LHC Accelerator Construction Project, a $200 million project funded by the US Department of Energy Office of Science, managed US participation in the design and building of the LHC accelerator. This project, now complete, included scientists from Brookhaven National Laboratory in New York; Fermi National Accelerator Laboratory in Illinois; and Lawrence Berkeley National Laboratory in California. Fermilab, in collaboration with CERN and the KEK laboratory in Japan, designed and constructed final-focus magnet systems used to focus the beams before collision in the center of each of the four main LHC experiments. The systems contain superconducting quadrupole magnets, built by Fermilab and KEK, and CERN-provided correction magnets. Lawrence Berkeley National Laboratory and Fermilab designed and constructed eight cryogenic and power feed boxes that support these final-focus systems. LBNL also designed and constructed eight specialized absorbers that protect the US-provided superconducting magnets from the secondary particles produced in proton collisions at the center of the LHC experiments. The laboratory also participated in the technical production of superconducting cable. Brookhaven National Laboratory designed and constructed 20 superconducting "beam separation" dipole magnets of four different designs and production tested superconducting wire and cable. Scientists from all three laboratories carried out accelerator physics calculations in support of the design of the LHC, including the final-focus magnet systems. Industry and the LHC US industries also had a hand in building the LHC machine, supplying $88.5 million in specialized materials and components. These materials included niobium-titanium alloy niobium sheets for use in manufacturing the superconductor for LHC magnets; superconducting cable; high-temperature superconducting tape for use in power leads; insulation for LHC magnets; and cryogenic and beam instrumentation components. The US LHC Accelerator Research Program (LARP) LARP coordinates research and development in the US related to the LHC accelerator. The program supports activities at Brookhaven National Laboratory , Fermi National Accelerator Laboratory, Lawrence Berkeley National Laboratory , and the SLAC National Accelerator Laboratory . LARP has also supported some work at the University of Texas at Austin. LARP began in 2002 and currently operates with an annual budget of approximately $12.5 million. Over 100 scientists, engineers, and graduate students are involved in LARP-related activities. Approximately half of LARPs resources are committed to the study of superconducting quadrupole magnets based on Niobium 3 tin (Nb3Sn) technology, so that these magnets can be used in a future Phase II upgrade to the LHC. These magnets could enhance the accelerators capabilities compared to traditional Niobium tin magnets. In the area of accelerator system research and development, LARP scientists provided several types of monitors and a tune feedback system for the LHC. These technologies allow accelerator physicists to monitor and diagnose the LHC particle beams. LARP is also developing a rotatable collimater, which would allow higher LHC beam intensity. Research and development for future upgrades include an electron cloud feedback system for the SPS, crab cavities for the Phase II upgrade, and significant involvement in the proposed PS2 project. The PS2 will replace the current PS accelerator in the injector line that brings an energized beam into the LHC. LARP also funds two programs to support US personnel working on the LHC. The first is the Toohig Fellowship, open to recent PhD recipients. Successful candidates divide their time between CERN and the LARP laboratory of their choice. The Long Term Visitor program supports senior personnel wishing to relocate to CERN for extended periods. In this case, their home institutions will contribute to pay their salaries, while LARP pays transportation and cost of living expenses. Accelerator Project for the Upgrade of the LHC (APUL) While LARP scientists research and develop new techniques and materials, APUL (Accelerator Project for the Upgrade of the LHC) provides an opportunity for US scientists and engineers to become involved in upgrading the LHC with tested technologies. Both APUL and CERN will build components for a near-term upgrade of LHC luminosity, which will increase the number of proton-proton collisions. The components will improve the LHC magnets ability to steer beams into collision. APUL will build superconducting magnets with larger apertures than current magnets, as well as a cold powering system that will bring power to the magnets from supplies more than 100 meters away. APUL began receiving funding in 2008 and is a collaboration of about twelve scientists and engineers from Brookhaven National Laboratory and Fermi National Accelerator Laboratory. To date, APUL has completed its conceptual design report and is now preparing a technical design report with CERN. The components being designed are scheduled to be installed in 2014.

Popularity: Tags: large hadron collider, large, experiments, scientists  

Earthbeingdestroyed.com: Earth is Being Destroyed | The Untold Story of How The Large Hadron Collider Killed You!

www.earthbeingdestroyed.com

The untold story of how the Large Hadron Collider destroyed the earth, and nothing can stop it now!

Popularity: Tags: black hole, lhc, large hadron collider, destroy  

Physics.mx: The Wonderful World of Physics @ Physics.mx

www.physics.mx

Quantum physics, string theory,,particle physics, LHC at CERN, and quantum computing news. Also, includes sound, classical mechanics, atomic physics,,relativity, electrodynamics and,lasers.

Popularity: Tags: physics, quantum theory, particle physics, quantum computers  

Cern.eu: Cern | Accelerating Science

www.cern.eu

CERN, the European Organization for Nuclear Research, is one of the world’s largest and most respected centres for scientific research. Its business is fundamental physics, finding out what the Universe is made of and how it works.

Popularity: Tags: physics, cern, large hadron collider, lhc  

Particlestory.com: Particle Story

particlestory.com

Richard Feynman's Story of Particle Physics, God particle क्या है पुरी detail story हिन्दी में ।What is God particle full detail story(In Hindi), The journey of a food particle: a digestive story (Minecraft movie)

Popularity: Tags: worldnews, world news, video, news  

Espotesqui.com: Cern | Accelerating Science

www.espotesqui.com

CERN, the European Organization for Nuclear Research, is one of the world’s largest and most respected centres for scientific research. Its business is fundamental physics, finding out what the Universe is made of and how it works.

Popularity: Tags: physics, cern, large hadron collider, lhc  

Quantum-gravity.org: Via db Universe

quantum-gravity.org

About Dark Matter and the Nature of Elementary Particles

Popularity: Tags: db, dark, matter, universe  

Davidcarne.com: Cern | Accelerating Science

davidcarne.com

CERN, the European Organization for Nuclear Research, is one of the world’s largest and most respected centres for scientific research. Its business is fundamental physics, finding out what the Universe is made of and how it works.

Popularity: Tags: physics, cern, large hadron collider, lhc