Abstract
CLICdp, the CLIC detector and physics study, is an international collaboration presently composed of 23 institutions. The collaboration is addressing detector and physics issues for the future Compact Linear Collider (CLIC), a high-energy electron-positron accelerator which is one of the options for the next collider to be built at CERN. Precision physics under challenging beam and background conditions is the key theme for the CLIC detector studies. This leads to a number of cutting-edge R&D activities within CLICdp. The talk includes a brief introduction to CLIC, accelerator and detectors, hardware R&D as well as physics studies at CLIC.
Highlights
IntroductionThe Compact Linear Collider detector and physics (CLICdp) collaboration [1] is a detector and physics R&D international collaboration which includes 23 institutes from a large geographic area
The Compact Linear Collider detector and physics (CLICdp) collaboration [1] is a detector and physics R&D international collaboration which includes 23 institutes from a large geographic area.An overview of the activities of CLICdp [2] is presented in this talk
A description is given of the CLIC physics capabilities, including examples of benchmark studies based on full detector simulations with overlay of beam-induced background processes
Summary
The Compact Linear Collider detector and physics (CLICdp) collaboration [1] is a detector and physics R&D international collaboration which includes 23 institutes from a large geographic area. An overview of the activities of CLICdp [2] is presented in this talk It first describes shortly the Compact Linear Collider (CLIC) [3] with an overview of the physics scope which would drive the energy staging of the collider. This is followed by a description of the detector requirements and experimental conditions dictated by the structure of the beam and by the physics program. A description is given of the CLIC physics capabilities, including examples of benchmark studies based on full detector simulations with overlay of beam-induced background processes. The examples of physics capabilities cover the following physics topics: Higgs, Top and New Physics
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