The IDEA detector concept for FCC-ee

TL;DR

The IDEA detector concept for FCC-ee is a comprehensive design optimized for the collider's specific physics goals and conditions, featuring advanced sub-detectors and promising high performance based on simulations.

Contribution

This paper introduces the IDEA detector concept, detailing its innovative sub-detectors and their integration tailored for FCC-ee's physics and operational environment.

Findings

Detailed detector performance simulations show promising results.

The design includes novel light tracking and high-resolution calorimetry.

Expected to enhance physics measurements at FCC-ee.

Abstract

A detector concept, named IDEA, optimized for the physics and running conditions at the FCC-ee is presented. After discussing the expected running conditions and the main physics drivers, a detailed description of the individual sub-detectors is given. These include: a very light tracking system with a powerful vertex detector inside a large drift chamber surrounded by a silicon wrapper, a high resolution dual readout crystal electromagnetic calorimeter, an HTS based superconducting solenoid, a dual readout fiber calorimeter and three layers of muon chambers embedded in the magnet flux return yoke. Some examples of the expected detector performance, based on fast and full simulation, are also given.