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Detector Technologies for CLIC | | A.C. Abusleme Hoffman
; G. Parès
; T. Fritzsch
; M. Rothermund
; H. Jansen
; K. Krüger
; F. Sefkow
; A. Velyka
; J. Schwandt
; I. Perić
; L. Emberger
; C. Graf
; A. Macchiolo
; F. Simon
; M. Szalay
; N. van der Kolk
; H. Abramowicz
; Y. Benhammou
; O. Borysov
; M. Borysova
; A. Joffe
; S. Kananov
; A. Levy
; I. Levy
; G. Eigen
; R. Bugiel
; S. Bugiel
; M. Firlej
; T.A. Fiutowski
; M. Idzik
; J. Moroń
; K.P. Świentek
; P. Terlecki
; P. Brückman de Renstrom
; B. Turbiarz
; T. Wojtoń
; L.K. Zawiejski
; E. Firu
; V. Ghenescu
; A.T. Neagu
; T. Preda
; I. Boyko
; Yu. Nefedov
; A. Rymbekova
; A. Sapronov
; G. Shelkov
; A. Zhemchugov
; A. Ruiz-Jimeno
; I. Vila
; E. Fullana
; J. Fuster
; P. Gomis Lopez
; M. Perelló
; M.A. Villarejo
; M. Vos
; J. Alozy
; N. Alipour Tehrani
; D. Arominski
; R. Ballabriga Sune
; F. Boyer
; E. Brondolin
; M. Buckland
; M. Campbell
; D. Dannheim
; K. Dette
; F. Duarte Ramos
; N. Egidos Plaja
; K. Elsener
; A. Fiergolski
; C. Fuentes Rojas
; C. Grefe
; D. Hynds
; W. Klempt
; I. Kremastiotis
; J. Kröger
; S. Kulis
; E. Leogrande
; L. Linssen
; X. Llopart Cudie
; A. Lucaci-Timoce
; M. Munker
; L. Musa
; A. Nürnberg
; F.-X. Nuiry
; E. Perez Codina
; H. Pernegger
; M. Petrič
; F. Pitters
; T. Quast
; S. Redford
; P. Riedler
; P. Roloff
; A. Sailer
; E. Santin
; U. Schnoor
; E. Sicking
; K. Sielewicz
; R. Simoniello
; W. Snoeys
; S. Spannagel
; S. Sroka
; R. Ström
; P. Valerio
; S. van Dam
; E. van der Kraaij
; T. Vǎnát
; O. Viazlo
; M. Vicente Barreto Pinto
; M.A. Weber
; M. Williams
; K. Wolters
; M. Benoit
; G. Iacobucci
; D M S Sultan
; R.R. Bosley
; T. Price
; M.F. Watson
; N.K. Watson
; A.G. Winter
; J. Goldstein
; S. Green
; J.S. Marshall
; M.A. Thomson
; B. Xu
; G. Casse
; J. Vossebeld
; T. Coates
; F. Salvatore
; J. Repond
; L. Xia
; C. Kenney
; A. Tomada
; | | Date: |
7 May 2019 | | Abstract: | The Compact Linear Collider (CLIC) is a high-energy high-luminosity linear
electron-positron collider under development. It is foreseen to be built and
operated in three stages, at centre-of-mass energies of 380 GeV, 1.5 TeV and 3
TeV, respectively. It offers a rich physics program including direct searches
as well as the probing of new physics through a broad set of precision
measurements of Standard Model processes, particularly in the Higgs-boson and
top-quark sectors. The precision required for such measurements and the
specific conditions imposed by the beam dimensions and time structure put
strict requirements on the detector design and technology. This includes
low-mass vertexing and tracking systems with small cells, highly granular
imaging calorimeters, as well as a precise hit-time resolution and power-pulsed
operation for all subsystems. A conceptual design for the CLIC detector system
was published in 2012. Since then, ambitious R&D programmes for silicon vertex
and tracking detectors, as well as for calorimeters have been pursued within
the CLICdp, CALICE and FCAL collaborations, addressing the challenging detector
requirements with innovative technologies. This report introduces the
experimental environment and detector requirements at CLIC and reviews the
current status and future plans for detector technology R&D. | | Source: | arXiv, 1905.2520 | | Services: | Forum | Review | PDF | Favorites | |
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