Physics at the CLIC Multi-TeV Linear Collider

CLIC Physics Working Group: E. Accomando; A. Aranda; E. Ateser; C.; Balazs; D. Bardin; T. Barklow; M. Battaglia; W. Beenakker; S. Berge; G.; Blair; E. Boos; F. Boudjema; H. Braun; P. Burikham; H. Burkhardt; M.; Cacciari; O. Cakir; A. Ciftci; R. Ciftci; B. Cox; C. Da Via; A. Datta; S. De; Curtis; A. De Roeck; M. Diehl; A. Djouadi; D. Dominici; J. Ellis; A. Ferrari,; J. Forshaw; A. Frey; G. Giudice; R. Godbole; M. Gruwe; G. Guignard; T. Han,; S. Heinemeyer; C. Heusch; J. Hewett; S. Jadach; P. Jarron; C. Kenney; Z.; Kirca; M. Klasen; K. Kong; M. Kramer; S. Kraml; G. Landsberg; J. Lorenzo; Diaz-Cruz; K. Matchev; G. Moortgat-Pick; M. Muhlleitner; O. Nachtmann; F.; Nagel; K. Olive; G. Pancheri; L. Pape; S. Parker; M. Piccolo; W. Porod; E.; Recepoglu; P. Richardson; T. Riemann; T. Rizzo; M. Ronan; C. Royon; L. Salmi,; D. Schulte; R. Settles; T. Sjostrand; M. Spira; S. Sultansoy; V. Telnov; D.; Treille; M. Velasco; C. Verzegnassi; G. Weiglein; J. Weng; T. Wengler; A.; Werthenbach; G. Wilson; I. Wilson; F. Zimmermann

arXiv:hep-ph/0412251·hep-ph·September 29, 2009·75 cites

Physics at the CLIC Multi-TeV Linear Collider

CLIC Physics Working Group: E. Accomando, A. Aranda, E. Ateser, C., Balazs, D. Bardin, T. Barklow, M. Battaglia, W. Beenakker, S. Berge, G., Blair, E. Boos, F. Boudjema, H. Braun, P. Burikham, H. Burkhardt, M., Cacciari, O. Cakir, A. Ciftci, R. Ciftci, B. Cox, C. Da Via

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TL;DR

The paper evaluates the physics potential of the CLIC multi-TeV linear collider, highlighting its capabilities for Higgs, supersymmetry, and beyond Standard Model physics at energies up to 5 TeV.

Contribution

It provides a comprehensive analysis of CLIC's design, experimental setup, and potential for groundbreaking discoveries beyond current collider capabilities.

Findings

01

Potential to complete Higgs boson profile and discover heavy Higgs states

02

Ability to measure supersymmetric particles with high precision

03

Probing theories with extra dimensions and new resonances

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 10^35 cm^-2 s^-1. 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\gamma and e-e- collisions. The next CLIC Test facility, CTF3, and its R&D programme are also reviewed. We then discuss aspects of experimentation at CLIC, including backgrounds and experimental conditions, and present a conceptual detector design used in the physics analyses, most of which use the nominal CLIC centre-of-mass energy of 3 TeV. CLIC contributions to Higgs physics could include completing the profile of a light Higgs boson by measuring rare decays and reconstructing the Higgs potential, or…

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Particle Detector Development and Performance · Distributed and Parallel Computing Systems