使用条件变异自动编码器模拟来自 IACT 的 EAS 图像

IF 0.4 4区 物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY Moscow University Physics Bulletin Pub Date : 2024-01-17 DOI:10.3103/S0027134923070184
A. P. Kryukov, S. P. Polyakov, A. A. Vlaskina, E. O. Gres, A. P. Demichev, Yu. Yu. Dubenskaya, D. P. Zhurov
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引用次数: 0

摘要

摘要大气切伦科夫望远镜用于记录高能粒子与高层大气碰撞所产生的大面积阵雨的图像。对图像进行分析可确定事件的物理参数,如主粒子的类型和能量。某些物理参数的分布也可用于确定伽马射线源的特性。任何实验的关键问题都是校准实验数据。为此,可以使用已知物理参数值的蒙特卡罗模拟数据。这种方法的主要缺点是对计算资源的要求极高,而且需要花费大量时间建模。在本文中,我们采用了另一种方法:用条件变异自动编码器模拟切伦科夫望远镜图像。我们将单个图像及其希拉斯参数分布的特征与蒙特卡罗方法生成的图像的特征进行了比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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The Use of Conditional Variational Autoencoders for Simulation of EAS Images from IACTs

Imaging atmospheric Cherenkov telescopes are used to record images of extensive area showers caused by high-energy particles colliding with the upper atmosphere. The images are analyzed to determine events’ physical parameters, such as the type and the energy of the primary particles. The distributions of some of the physical parameters can be used as well, for example, to determine the properties of a gamma ray source. The key problem of any experiment is the calibration of experimental data. For this purpose, Monte Carlo simulated data with known values of the physical parameters are used. The main disadvantage of this method is its extremely high requirements for computing resources and the large amount of time spent on modelling. In this paper, we use an alternative approach: Cherenkov telescope images are simulated with conditional variational autoencoders. We compare the characteristics of both the individual images and their Hillas parameter distributions with those of the images generated by the Monte Carlo method.

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来源期刊
Moscow University Physics Bulletin
Moscow University Physics Bulletin PHYSICS, MULTIDISCIPLINARY-
CiteScore
0.70
自引率
0.00%
发文量
129
审稿时长
6-12 weeks
期刊介绍: Moscow University Physics Bulletin publishes original papers (reviews, articles, and brief communications) in the following fields of experimental and theoretical physics: theoretical and mathematical physics; physics of nuclei and elementary particles; radiophysics, electronics, acoustics; optics and spectroscopy; laser physics; condensed matter physics; chemical physics, physical kinetics, and plasma physics; biophysics and medical physics; astronomy, astrophysics, and cosmology; physics of the Earth’s, atmosphere, and hydrosphere.
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