Simulated performance and calibration of CMS Phase-2 Upgrade Inner Tracker sensors

TL;DR

This paper presents detailed simulation studies of CMS Phase-2 Upgrade sensors, evaluating their performance and calibration to inform sensor technology choices for the High Luminosity LHC upgrade.

Contribution

It provides the first comprehensive simulation-based performance analysis of proposed CMS Phase-2 Upgrade sensor designs, guiding sensor selection for the detector upgrade.

Findings

3D sensors with 25×100 μm² pixels perform optimally in the innermost layer.

Planar sensors with 25×100 μm² pixels are suitable for outer regions.

Simulation results support the sensor technology decisions for the CMS upgrade.

Abstract

The next upgrade of the Large Hadron Collider (LHC) is planned from 2026 when the collider will move to its High Luminosity phase (HL-LHC). The CMS detector needs to be substantially upgraded during this period to exploit the fourfold increase in luminosity provided by the HL-LHC. This upgrade is referred to as the CMS Phase-2 Upgrade. A program of laboratory and beam test measurements, and performance studies based on the detailed simulation of the detector was carried out to support the decision of the technology of the sensors to be adopted in the different regions of the detector for the Phase-2 Upgrade. Among the various options considered, CMS chose to use 3D sensors with a 25 $\times$ 100 $\mu$m$^2$ pixel cell in the innermost layer of the barrel and planar sensors with a 25 $\times$ 100 $\mu$m$^2$ pixel cell elsewhere. In this paper, we detail the simulation studies that were carried out to choose the best sensor design. These studies include a detailed standalone simulation of the sensors made with PixelAV and the expected performance on high level observables obtained with the simulation and reconstruction software of the CMS experiment.