The CLIC Detector Concept

TL;DR

The paper presents the design and R&D efforts for the CLIC detector, a high-precision system optimized for future 3 TeV electron-positron collisions with advanced tracking, calorimetry, and background rejection capabilities.

Contribution

It introduces the CLIC detector concept with innovative low-mass silicon trackers and fine-grained calorimeters, addressing technological challenges for high-energy collider experiments.

Findings

Design optimizations for high-resolution tracking and calorimetry.

Development of background rejection techniques with nanosecond timing.

Integration of a 4 T solenoid magnet with detector components.

Abstract

The Compact Linear Collider (CLIC) is a concept for a future linear collider that would provide e$^+$e$^-$ collisions at up to 3 TeV. The physics aims require a detector system with excellent jet energy and track momentum resolution, highly efficient flavour tagging and lepton identification capabilities, full geometrical coverage extending to low polar angles, and timing information of the order of nanoseconds to reject beam-induced background. To deal with these requirements, an extensive R&D programme is in place to overcome current technological limits. The CLIC detector concept includes a low-mass all-silicon vertex and tracking detector system and fine-grained calorimeters designed for particle flow analysis techniques, surrounded by a 4 T solenoid magnet. An overview of the requirements and design optimisations for the CLIC detector concept is presented.