Design Considerations of the DUCK Detector System

IF 1.3 Q3 INSTRUMENTS & INSTRUMENTATION

Quantum Beam Science Pub Date : 2023-02-02 DOI:10.3390/qubs7010006

D. Beznosko, Valeriy Aseykin, A. Dyshkant, A. Iakovlev, O. Krivosheev, T. Krivosheev, V. Zhukov

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引用次数: 1

Abstract

The article describes the development, design, and upcoming construction and deployment of core modules of DUCK (Detector system of Unusual Cosmic-ray casKades), a cosmic-rays detector system aimed to verify and further study the latest advances in the cosmic-rays field and participate in the international collaborations searching for new types of events. The primary scientific goal for the DUCK project will be an independent verification of the detection of ‘unusual’ cosmic ray events by the Horizon-T detector system. A detailed study of events of this type is a vital step towards understanding the nature of cosmic rays, their origins, and details of interaction with the nuclei in the atmosphere. Further operations as part of the CREDO collaboration will contribute to the continued monitoring of the cosmic events. Additional intellectual value includes the design of the fast detection system with high timing resolution for cosmic events detection and the study of the temporal structure of extensive air showers that would also contribute to the current simulations. All the steps are conducted with student involvement and advance excellence in providing students with real research experience and competitive knowledge.

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DUCK探测系统的设计考虑

本文介绍了宇宙射线探测系统DUCK (Detector system of Unusual Cosmic-ray casKades)核心模块的研制、设计、即将建设和部署。DUCK是一个宇宙射线探测系统，旨在验证和进一步研究宇宙射线领域的最新进展，并参与寻找新型事件的国际合作。DUCK项目的主要科学目标将是独立验证地平线- t探测器系统探测到的“不寻常”宇宙射线事件。对这类事件的详细研究是理解宇宙射线的本质、它们的起源以及与大气中原子核相互作用的细节的重要一步。作为CREDO合作的一部分，进一步的操作将有助于继续监测宇宙事件。额外的智力价值包括设计用于宇宙事件探测的具有高时间分辨率的快速探测系统，以及研究广泛的空气阵雨的时间结构，这也有助于当前的模拟。所有的步骤都是在学生参与的情况下进行的，并为学生提供真正的研究经验和有竞争力的知识。

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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