A High Energy Electron and Photon Detector Simulation System

TL;DR

This paper presents a Monte-Carlo simulation system for high energy electron and photon detectors, enabling detailed response function calculations and spectrum deconvolution for improved detector analysis.

Contribution

The paper introduces a comprehensive Monte-Carlo code that simulates photon and charged particle interactions to derive detector response functions and matrices.

Findings

Successfully derived detector response matrices for various photon energies

Demonstrated spectrum deconvolution using the simulation-based response functions

Validated the simulation system against known detector behaviors

Abstract

A detailed Monte-Carlo code has been developed from basic principles that simulates almost all of the basic photon and charged particle interactions. The code is used to derive the response functions of a high energy photon detector to incident beams of photons of various energies. The detector response matrices (DRMs) are calculated using this code. Deconvolution of an artificially generated spectrum is presented.