Status of Simulation Tools for the ILD ScECAL
Katsushige Kotera, Marc Anduze, Vincent Boudry, Jean-Claude Brient,, Daniel Jeans, Kiyotomo Kawagoe, Akiya Miyamoto, Paulo Mora de Freitas,, Gabriel Musat, Hiroaki Ono, Tohru Takeshita, and Satoru Uozumi
TL;DR
This paper reviews the current development status of simulation and reconstruction tools for the scintillator-strip electromagnetic calorimeter (ScECAL) used in the ILC, focusing on their role in optimizing detector performance.
Contribution
It provides an update on the development of specialized simulation and reconstruction tools tailored for the ScECAL detector concept in the ILD collaboration.
Findings
Development of simulation tools is ongoing.
Reconstruction methods are being optimized for fine granularity.
Tools are aimed at enhancing detector performance.
Abstract
The scintillator-strip electromagnetic calorimeter (ScECAL) is one of the calorimeter technic for the ILC. To achieve the fine granularity from the strip-segmented layers the strips in odd layers are orthogonal with respect to those in the even layers. In order to extract the best performance from such detector concept, a special reconstruction method and simulation tools are being developed in ILD collaboration. This manuscript repots the status of developing of those tools.
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Taxonomy
TopicsRadiation Detection and Scintillator Technologies · Superconducting and THz Device Technology · Superconducting Materials and Applications