Anagram & Information om | Engelska ordet COLLIDERS

Exempel på hur du använder COLLIDERS i en mening

• Experimentally, gluinos have been one of the most promising SUSY particle candidates to be discovered since the production cross-section is the highest among SUSYs in the energy-frontier hadron colliders such as Tevatron and the Large Hadron Collider (LHC).
• Proton beam, such as the beams used in proton therapy, at colliders such as the Tevatron and the Large Hadron Collider, or for proton beam writing in lithography.
• There are two main types of particle colliders, which differ in the types of particles they collide: lepton colliders and hadron colliders.
• In peripheral nuclear collisions at high energies one expects to obtain information on the electromagnetic production of leptons and mesons that are not accessible in electron–positron colliders due to their much smaller luminosities.
• Particle colliders such as LEP, HERA, RHIC, Tevatron and LHC can host several interaction regions and therefore several experiments taking advantage of the same beam.
• In the previous years, the construction of hadron colliders was avoided as it appeared to be unfruitful due to the unavailability of any stacking method.
• Dimopoulos is well known for his work on constructing theories beyond the Standard Model, which are currently being searched for and tested at particle colliders like LHC at CERN and at experiments all over the world.
• He was a member of the committees that selected experiments at the LEP and LHC accelerators and participated in early studies of possible future colliders such as CLIC and FCC.
• This strong interaction of theirs is important for their production in hadron colliders (such as the Tevatron or LHC).
• The high-energy analog of the neutrinoless double beta decay process is the production of same-sign charged lepton pairs in hadron colliders; it is being searched for by both the ATLAS and CMS experiments at the Large Hadron Collider.
• Electron-positron colliders operating in the region of the low-lying hadronic resonances (about 1 GeV to 10 GeV), such as the Beijing Electron–Positron Collider II and the Belle and BaBar "B-factory" experiments, use large-angle Bhabha scattering as a luminosity monitor.
• In 1984 he coauthored "Supercollider Physics" (with Eichten, Ian Hinchliffe and Chris Quigg), which has strongly influenced the quest for future discoveries at hadron colliders such as the Fermilab Tevatron the SSC, and the LHC at CERN.
• In 1984 he coauthored "Supercollider Physics" (with Estia Eichten, Kenneth Lane and Ian Hinchliffe), which has strongly influenced the quest for future discoveries at hadron colliders, such as the Fermilab Tevatron, the SSC, and the LHC at CERN.
• In 1984 Eichten coauthored "Supercollider Physics" (with Kenneth Lane, Ian Hinchliffe and Chris Quigg), which has strongly influenced the quest for future discoveries at hadron colliders, such as the Fermilab Tevatron, the SSC, and the LHC at CERN.
• The method was invented by Gersh Budker at INP, Novosibirsk, in 1966 for the purpose of increasing luminosity of hadron colliders.
• The size of the dimensions in ADD is around the order of the TeV scale, which results in it being experimentally probeable by current colliders, unlike many exotic extra dimensional hypotheses that have the relevant size around the Planck scale.
• Chattopadhyay is noted for his pioneering contributions of innovative concepts, techniques and developments in high energy particle colliders, coherent and incoherent light sources, ultrafast sciences in the femto- and atto- second regimes, superconducting linear accelerators and various applications of interaction of particle and light beams.
• Some of her most notable publications include "Observation of a New Particle in the Search for the Standard Model Higgs Boson with the ATLAS Detector at the LHC", where CERN presented the Higgs boson observation, "Searches for supersymmetry at high-energy colliders: the past, the present and the future" in the IOP Science, New Journal of Physics, and "Calorimetry for particle physics" in the APS Physics Journal.
• Around the same time Kane and Leveille performed the first calculation of the Feynman rules for gluinos, and of the production of gluinos at colliders, which turns out to be one of the most important ways to discover supersymmetry at the LHC.
• Many other experiments involving the creation of a considerable amount of different particles at relativistic velocities have been (and still are) conducted in hadron colliders such as Tevatron (up to 1 TeV), the Relativistic Heavy Ion Collider (up to 200 GeV), and most recently the Large Hadron Collider (up to 7 TeV) in the course of searching for the Higgs boson.

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