A Detailed Monte-Carlo Simulation for the Belle TOF System

J. W. Nam; Y. I. Choi; D. W. Kim; J. H . Kim; B. C. K. Casey; M.; Jones; S. L. Olsen; M. Peters; J. L. Rodriguez; G. Varner; Y. Zheng; N.; Gabyshev; H. Kichimi; J. Yashima; J. Zhang; T. H. Kim; Y. J. Kwon

arXiv:hep-ex/0204030·hep-ex·November 17, 2014

A Detailed Monte-Carlo Simulation for the Belle TOF System

J. W. Nam, Y. I. Choi, D. W. Kim, J. H . Kim, B. C. K. Casey, M., Jones, S. L. Olsen, M. Peters, J. L. Rodriguez, G. Varner, Y. Zheng, N., Gabyshev, H. Kichimi, J. Yashima, J. Zhang, T. H. Kim, Y. J. Kwon

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TL;DR

This paper presents a comprehensive Monte Carlo simulation for the Belle Time-of-Flight system, accurately modeling physics processes and system performance to aid in understanding and optimizing detector operation.

Contribution

It introduces a detailed GEANT-based simulation program that replicates the Belle TOF system's performance including timing, efficiency, and background effects.

Findings

01

Simulation accurately reproduces system performance

02

Includes detailed modeling of physics processes

03

Represents a valuable tool for detector analysis

Abstract

We have developed a detailed Monte Carlo simulation program for the Belle TOF system. Based on GEANT simulation, it takes account of all physics processes in the TOF scintillation counters and readout electronics. The simulation reproduces very well the performance of the Belle TOF system, including the dE/dx response, the time walk effect, the time resolution, and the hit efficiency due to beam background. In this report, we will describe the Belle TOF simulation program in detail.

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