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Thursday, April 30, 2020 | History

3 edition of Physics at the CLIC Multi-TeV linear collider found in the catalog.

Physics at the CLIC Multi-TeV linear collider

CLIC Physics Working Group.

Physics at the CLIC Multi-TeV linear collider

report of the CLIC Physics Working Group

by CLIC Physics Working Group.

  • 29 Want to read
  • 8 Currently reading

Published by CERN in Geneva .
Written in English

    Subjects:
  • Colliders (Nuclear physics) -- Congresses.,
  • Physics -- Congresses.

  • Edition Notes

    Other titlesReport of the CLIC Physics Working Group
    Statementeditors: M. Battaglia ... [et al.].
    GenreCongresses.
    SeriesCERN-2004-005, CERN (Series) ;, 2004-005
    ContributionsBattaglia, M., European Organization for Nuclear Research.
    Classifications
    LC ClassificationsQC770 .E82 vol. 2004-005, QC787.C59 .E82 vol. 2004-005
    The Physical Object
    Paginationviii, 208 p. :
    Number of Pages208
    ID Numbers
    Open LibraryOL3378212M
    ISBN 109290832266
    LC Control Number2004480894
    OCLC/WorldCa56407376

    Furthermore, the physics briefing book suggests/explores a range of alternative approaches not limited to colliders, but complemented by beam-dump, fixed-target and other experiments. Feebly-interacting and long-lived particles are two recent examples demonstrating how the experimental community can come up with new ideas as a healthy response. Mitigation of Ground Motion Effects Via Feedback Systems in CLIC The Compact Linear Collider (CLIC) is a future multi-TeV electron positron collider, which is currently designed at CERN. To achieve its ambitious goals, CLIC has to produce particle beams of highest quality, which makes the accelerator very sensitive to ground : Pfingstner Jurgen.   Any machine that can reach the multi-TeV scale — be it with muons or electrons — will be enormously complex. CERN is exploring how to reach these energies with a 50 km electron-positron linear collider of innovative design. We are exploring a muon collider that might fit in the Fermilab site.


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Physics at the CLIC Multi-TeV linear collider by CLIC Physics Working Group. Download PDF EPUB FB2

CLIC Physics Working Group. Physics at the CLIC Multi-TeV linear collider. Geneva: CERN, (OCoLC) Document Type: Book: All Authors / Contributors: M Battaglia; CLIC Physics at the CLIC Multi-TeV linear collider book Working Group.; European Organization for Nuclear Research.

Abstract: This report summarizes a study of the physics potential of the CLIC e+e- linear collider operating at centre-of-mass energies from 1 TeV to 5 TeV with luminosity of the order of Physics at the CLIC Multi-TeV linear collider book cm^-2 s^ First, the CLIC collider complex is surveyed, with emphasis on aspects related to its physics capabilities, particularly the luminosity and energy, and also possible polarization, \gamma Cited by: This report summarizes a study of the physics potential of the CLIC e+e- linear collider operating at centre-of-mass energies from 1 TeV to 5 TeV with luminosity of the order of 10^35 cm^-2 s^ First, the CLIC collider complex is surveyed, with emphasis on Physics at the CLIC Multi-TeV linear collider book related to its physics capabilities, particularly the luminosity and energy, and also possible polarization, \gamma\gamma and e-e.

This report describes the accelerator studies for a future multi-TeV e+e- collider based on the Compact Linear Collider (CLIC) technology.

The CLIC concept as described in the report is Physics at the CLIC Multi-TeV linear collider book on high gradient normal-conducting accelerating structures where the RF power for the acceleration of the colliding beams is extracted from a high-current Drive Beam that runs parallel with the main linac.

The Compact Linear Collider (CLIC) is a TeV scale high-luminosity Physics at the CLIC Multi-TeV linear collider book e+e collider under devel-opment. It is based on a novel two-beam acceleration technique providing acceleration gradients at the level of MV/m.

Recent implementation studies for CLIC have converged towards a staged approach. The Compact Linear Collider (CLIC) is a concept for a future linear particle accelerator that aims to explore the next energy frontier.

CLIC would collide electrons with positrons and is currently the only mature option for a multi-TeV linear accelerator would be between 11 and 50 km (7 and 31 mi) long, more than ten times longer than the existing Stanford Linear Accelerator (SLAC.

Abstract. This report describes the accelerator studies for a future multi-TeV e + e -collider based on the Compact Linear Collider (CLIC) technology. The CLIC concept as described in the report is based on high gradient normal-conducting accelerating structures where the RF power for the acceleration of the colliding beams is extracted from a high-current Drive Beam that runs parallel with.

Physics at Physics at the CLIC Multi-TeV linear collider book CLIC multi-TeV linear collider Accomando, Elena; Sjöstrand, Theoretical Particle Physics publishing date type Book/Report publication status published subject.

Subatomic Physics; in CERN Reports volume CERN pages pages publisher. This article reviews the status of the CLIC (Compact Linear Collider) study toward feasibility demonstration of a novel and challenging technology that has been specially developed to extend the energy reach of linear colliders into the multi-TeV range so that they will be complementary to the LHC (Large Hadron Collider).

A conceptual design report is being prepared; it summarizes the Cited by: SUSY: Strength of a Multi-TeV Collider • Complete the SUSY spectrum further (extended reach w.r.t.

LC and LHC) • Measure properties of sparticles with linear collider type of precisions in the high mass range (e.g. masses up to 1%, spin, mixing angles, tanβ, gaugino couplings, slepton quantum numbers) →see CLIC Report for details. e+ e – Compact Linear Collider (CLIC) is being studied at CERN [], [] as a possible new high-energy physics facility for the post-LHC era [].

The maximum energy of 5 TeV is well above those presently being proposed by other linear collider studies. The physics experiments require a luminosity of at least 10 34 cm –2 s –1 at 1 TeV. The Compact Linear Collider (CLIC) is a multi-TeV high-luminosity linear e+e− collider under development.

For an optimal exploitation of its physics potential, CLIC is foreseen to be built and. This report describes the physics potential and experiments at a future multi- TeV e+e− collider based on the Compact Linear Collider (CLIC) technology. Physic and Detectors at CLIC Eva Sicking 1 Physics and Detectors at the CLIC e+e­ Linear Collider Eva Sicking (CERN) on behalf of the CLIC detector and physics study International School on Subnuclear Physics, Erice, Sicily, The Compact Linear Collider (CLIC) is a multi-TeV high-luminosity linear e + e-collider under development.

For an optimal exploitation of its physics potential, CLIC is foreseen to be built and operated in a staged approach with three centre-of-mass energy stages ranging from a Cited by: This report forms part of the Conceptual Design Report (CDR) of the Compact LInear Collider (CLIC).

The CLIC accelerator complex is described in a separate CDR volume. A third document, to appear later, will assess strategic scenarios for building and operating CLIC in successive center-of-mass.

Gian Francesco Giudice (born Janu ) is an Italian theoretical physicist working at CERN in particle physics and cosmology. After graduating in physics from the University of Padua inGiudice obtained in his PhD in theoretical physics from the International School for Advanced Studies in al advisor: Riccardo Barbieri.

CLIC goal Develop technology for e-/e+ linear collider with E CMS= 3 TeV CLIC physics motivation "Physics at the CLIC Multi-TeV Linear Collider: report of the CLIC Physics Working Group," CERN report Next CLIC milestone Demonstrate key feasibility issues by The Compact Linear Collider (CLIC) is a proposed high-luminosity collider that would collide electrons with their antiparticles, positrons, at energies ranging from a few hundred giga.

The Compact Linear Collider (CLIC) is a mature option for a future multi-TeV high-luminosity linear e+e− collider that is currently under development at CERN. It is based on a novel two-beam acceleration technique providing accelerat-ing gradients of MV/m.

Recent implementation studies for CLIC have converged towards a staged approach. In this. Higgs Physics at CLIC Eva Sicking on behalf of the CLICdp collaboration CERN, Gen Switzerland Abstract The Compact Linear Collider (CLIC) is an attractive option for a future multi-TeV linear electron-positron collider, offering the potential for a rich precision physics programme, combined with sensitivity to a wide range of new by: 1.

The Compact Linear Collider (CLIC) is a proposed design for a high-energy electron-positron collider for potentially reaching multi-TeV centre-of-mass energies in lepton collisions.

The first energy stage would be a Higgs-boson and top-quark factory at GeV. I will review the CLIC project and present the current status of the energy-staged. "Physics at the CLIC Multi-TeV Linear Collider: by the CLIC Physics Working Group:CERN Present goal: Demonstrate all key feasibility issues and document in a Conceptual Design Report by and possibly Technical Design Report by CLIC Advisory CommitteE (ACE):g/DESY, r/CEA, di/INFN, ev File Size: 4MB.

The Compact Linear Collider (CLIC) is an option for a future e + e − {\mathrm{e}^{+}}{\mathrm{e}^{-}} e + e − collider operating at centre-of-mass energies up to 3 TeV 3\,\text {TeV} 3 TeV, providing sensitivity to a wide range of new physics phenomena and precision physics measurements at the energy frontier.

The Physics Case for a TeV Linear Collider S. Dawson BNL. March, GeV or a (multi) TeV scale lepton collider Electroweak symmetry breaking, the search for supersymmetry, and precision measurements form the backbone of the lepton collider physics case.

A comprehensive review of physics at an e+e- Linear Collider in the energy range of sqrt{s}=92 GeV TeV is presented in view of recent and expected LHC results, experiments from low energy as well as astroparticle report focuses in particular on Higgs boson, Top quark and electroweak precision physics, but also discusses several models of beyond the Standard Model physics such as.

The Compact Linear Collider (CLIC) is an option for a future $${\\mathrm{e}^{+}}{\\mathrm{e}^{-}} $$ e + e - collider operating at centre-of-mass energies up to $$3\\,\\text {TeV} $$ 3 TeV, providing sensitivity to a wide range of new physics phenomena and precision physics measurements at the energy frontier.

This paper is the first comprehensive Cited by:   The CLIC scheme 6 has two key features that distinguish it from other, lower-energy linear collider studies 8.

The first is the operating frequency of the accelerating structures in the main linacs. CLIC would be a high-luminosity, multi-TeV electron–positron collider to be built at the CERN site which would operate in three phases.

The first one, CLIC-1, would have a center of mass energy of GeV and would focus on precision studies of the Higgs boson and the top quark, which are sensitive to potential new physics beyond the Standard.

A TeV linear collider would provide much additional insight into electroweak symmetry breaking, in particular, and a multi-TeV linear collider would add even more value in all the scenarios studied, for example in models with supersymmetry or extra dimensions.

CERN-PH-TH/ The physics motivation for an \epem linear collider (LC) has been studied in detail for more than 20 years []-[].These studies have provided a compelling case for a LC as the next collider at the energy frontier.

The unique strengths of a LC stem from the clean experimental environment arising from \epem collisions. In particular, the centre-of-mass energy and initial-state polarisations Cited by: 3.

In this paper, we take advantage of this fact to set limits on and for integrated luminosities of and center of mass energies between and 3 TeV, that is to say, in the next generation of linear colliders, namely, the International Linear Collider (ILC) and the Compact Linear Collider (CLIC).Cited by: 6.

Two projects of linear electron-positron colliders are being considered: the International Linear Collider (ILC [1, 2]) and the Compact Linear Collider (CLIC). The physics case for a linear \(e^+e^-\) machine has been made in great detail in Refs. [4–11]. The specific case of a multi-TeV \(e^+ e^- Cited by: Abstract.

We study the prospects of the model with an additional boson to be a Higgs boson factory at high-energy and high-luminosity linear electron positron colliders, such as the ILC and CLIC, through the Higgs-strahlung process, including both the resonant and the nonresonant evaluate the total cross section of and we calculate the total number of events for integrated Cited by: 7.

Ian Wilson, deputy study leader of the project at CERN, says CLIC takes a more futuristic approach. It would operate at about 3 TeV by extracting the power for the main beam from a secondary beam.

“We believe that the CLIC two-beam scheme is the only way to go to multi-TeV linear colliders,” says Wilson. The Compact Linear Collider (CLIC) The physics case for a multi-TeV e+e-collider such as CLIC is very strong. CLIC will extend the reach for heavy Higgs states significantly.

It would add new information on rare Higgs decays, such as the decay H µµ for m H in the range GeV and the decay H bb for m. X 5 E+E and HADRON COLLIDERS Collider Energy Discovery / / Target SPEAR SLAC e+e 4 GeV charm quark, ˝ lepton PETRA DESY e+e 38 GeV gluon Spp S CERN pp GeV W ;Z bosons LEP CERN e+e GeV SM: elw and QCD / 3 families SLC SLAC e+e 90 GeV elw SM LC prototype Tevatron FNAL pp 2 TeV top quark.

Computational Accelerator Physics Proceedings of the Seventh International C. M Berz, K Makino: Taylor & Francis: Field Solutions on Computers / Finite-element Methods for Electromagnetics: Stanley Humphries Jr.

/ CRC Press / Field P. Collider: The Search for the World's Smallest Particles: Paul Halpern: physics at future hadron colliders. Concerning LHC, which hopefully will start ina ¥ s § 1 TeV ep collider will be very useful in earlier s when precision era at LHC will begin.

Finally, multi-TeV center of mass energy ep colliders are competitive to future hadron and. PPA Strategy and Challenges 13 Physics opportunities at the LHC Not yet known Current • Compact Linear Collider (CLIC) R&D –Capable of multi-TeV energies –Develop a linear collider design aiming at 50% of ILC cost but with.

The Compact Pdf Collider (CLIC) is a concept for a future linear particle accelerator that aims to explore the next energy frontier. CLIC would collide electrons with positrons and is currently the only mature option for a multi-TeV linear collider.We investigate the dipole moments of the tau-neutrino at download pdf and high luminosity at linear electron–positron colliders, such as CLIC or ILC through the analysis of the reaction e + e − → ν ν ̄ γ in the framework of the S U (4) L × U (1) X : D.T.

Binh, Vo Van On, H.N. Long. The Ebook Linear Collider (CLIC) is a proposed design for a ebook electron-positron collider for potentially reaching multi-TeV centre-of-mass energies in lepton collisions. The first energy stage would be a Higgs-boson and top-quark factory at GeV. I will review the CLIC project and present the current status of the energy-staged.