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Experiences in Teaching Basics of Quantum Mechanics with Scientific Applications in the Electronics Engineering Program: When Modern Physics Reinforces Capabilities in Third-Year Students to Understand Novel Technologies Applied in Physics Modern Experime

机译：在电子工程课程中教授具有科学应用的量子力学基础知识的经验：当现代物理学增强三年级学生理解物理现代实验中应用的新技术的能力时

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We reviewed experiences in teaching principles and applications of Quantum Mechanics (QM in short) in students of the electrical engineering program. Essentially we focused on the applicability of the electronics in the developing of others fields concretely in the field of quantum physics of particles commonly known as particles physics detectors and the role of DAQ systems. This paper presents experiences on the applied methodology which was used to provide to the students basic knowledge on the main principles of the quantum mechanics targeting that the student acquires capabilities to make a coherent connection between the electronics engineering contribution as a crucial component to the development of the basic sciences. Essentially this paper aims to describe the principles of QM and how it is the starting point to involve engineers students in research related to cutting edge technologies through the demonstration of the basic principles of the quantum theory in the lab. Here "lab" would denote a possible experiment for testing advanced QM models. We provide an illustrative example based on the role of the electronic engineering in the detection of subatomic particles in ongoing projects of elementary particles detection. Emphasis is paid in the role of the electronics engineering to design and built high resolution detectors.

机译：我们在电气工程计划学生中审查了量子力学（短期内）的教学原理和应用的经验。基本上，我们专注于电子产品在常见称为粒子物理探测器的颗粒物理物理学领域以及DAQ系统的作用领域中的其他领域的适用性。本文介绍了应用方法的经验，用于向学生提供关于衡量学生获得能力，以使电子工程贡献与发展的关键组件之间的连贯联系的Quantum Mechence的主要原则基本知识基本科学。本文本文旨在描述QM的原则以及涉及工程师学生在与实验室中量子理论的基本原则的基本原则涉及削减边缘技术有关的研究的起点的起点。这里“实验室”将表示可能的测试，用于测试先进的QM模型。我们提供了一种说明性示例，该说明性示例是基于电子工程在基本粒子检测的持续项目中检测亚杀菌粒子的作用。重点是电子工程设计和建造高分辨率探测器的作用。

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《IEEE Biennial Congress of Argentina》|2018年|1-4|共4页
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Huber Nieto-Chaupis;
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Data acquisition; Detectors; Quantum mechanics; Mesons; Positrons;

机译：数据采集;检测器;量子力学;介子;正电子;

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Experiences in Teaching Basics of Quantum Mechanics with Scientific Applications in the Electronics Engineering Program: When Modern Physics Reinforces Capabilities in Third-Year Students to Understand Novel Technologies Applied in Physics Modern Experime

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