Student reasoning about quantum mechanics while working with physical experiments

arXiv - PHYS - Physics Education Pub Date : 2024-06-29 DOI:arxiv-2407.00274

Victoria Borish, H. J. Lewandowski

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Abstract

Instruction in quantum mechanics is becoming increasingly important as the field is not only a key part of modern physics research, but is also important for emerging technologies. However, many students regard quantum mechanics as a particularly challenging subject, in part because it is considered very mathematical and abstract. One potential way to help students understand and contextualize unintuitive quantum ideas is to provide them opportunities to work with physical apparatus demonstrating these phenomena. In order to understand how working with quantum experiments affects students' reasoning, we performed think-aloud lab sessions of two pairs of students as they worked through a sequence of quantum optics experiments that demonstrated particle-wave duality of photons. Analyzing the in-the-moment student thinking allowed us to identify the resources students activated while reasoning through the experimental evidence of single-photon interference, as well as student ideas about what parts of the experiments were quantum versus classical. This work will aid instructors in helping their students construct an understanding of these topics from their own ideas and motivate future investigations into the use of hands-on opportunities to facilitate student learning about quantum mechanics.

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学生在进行物理实验时对量子力学的推理

量子力学不仅是现代物理学研究的关键部分，而且对新兴技术也非常重要，因此量子力学的教学变得越来越重要。然而，许多学生认为量子力学是一门特别具有挑战性的学科，部分原因是它被认为非常数学化和抽象。帮助学生理解直观的量子思想并将其与上下文联系起来的一个潜在方法，就是为他们提供与演示这些现象的物理仪器一起工作的机会。为了了解使用量子实验如何影响学生的推理，我们对两对学生进行了 "思考-朗读 "实验课，让他们通过一系列量子光学实验来演示光子的粒子-波二重性。通过分析学生的即时思维，我们确定了学生在推理单光子干涉的实验证据时所激活的资源，以及学生关于实验中哪些部分是量子的哪些部分是经典的想法。这项工作将有助于教师帮助他们的学生从自己的想法中建构对这些主题的理解，并激励未来的研究利用动手机会促进学生对量子力学的学习。

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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arXiv - PHYS - Physics Education

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