Keep it secret, keep it safe: teaching quantum key distribution in high school

IF 5.8 2区 物理与天体物理 Q1 OPTICS
Efraim Yehuda Weissman, Avraham Merzel, Nadav Katz, Igal Galili
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Abstract

Quantum Key Distribution (QKD) is a cryptography protocol based on the fundamental principles of quantum physics (QP). Teaching this subject does not require extensive knowledge beyond these principles, making it suitable for inclusion in high school (HS) curricula. Despite its relevance, teaching QKD in HS is yet understudied. In this study, we collected responses from 12th-grade students from various schools that adopted and applied the Discipline-Culture vision of the physics curriculum. We assessed their understanding through conceptual and quantitative problems and examined their attitudes regarding the motivation to study this subject. We analyzed the responses using content analysis, identifying the challenges and affordances of teaching QKD. The challenges faced by students have been categorized into three themes: difficulties with QP, difficulties with the QKD protocol, and difficulties with the mathematics involved in this context. Despite these challenges, we found that teaching QKD reinforces students’ conceptual understanding of QP concepts and problem-solving skills. This work enhances educators’ ability to address the challenges of teaching QP and suggests that teaching QKD in HS strengthens students’ motivation to study QP.

保密、安全:高中量子密钥分配教学
量子密钥分发(QKD)是一种基于量子物理学(QP)基本原理的加密协议。教授这门课程不需要这些原理以外的广泛知识,因此适合纳入高中(HS)课程。尽管 QKD 与高中教学息息相关,但对它的研究仍然不足。在本研究中,我们收集了来自不同学校的 12 年级学生的回答,这些学校都采用并应用了物理课程的学科-文化视角。我们通过概念性问题和定量问题评估了他们的理解能力,并考察了他们对学习本学科动机的态度。我们使用内容分析法对学生的回答进行了分析,确定了教学 QKD 所面临的挑战和优势。学生们所面临的挑战被归纳为三个主题:学习 QP 的困难、学习 QKD 协议的困难以及学习其中所涉及的数学的困难。尽管存在这些困难,但我们发现,QKD 教学加强了学生对 QP 概念的理解和解决问题的技能。这项研究提高了教育工作者应对素质拓展教学挑战的能力,并表明在高中进行素质拓展教学可增强学生学习素质拓展的动力。
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来源期刊
EPJ Quantum Technology
EPJ Quantum Technology Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
7.70
自引率
7.50%
发文量
28
审稿时长
71 days
期刊介绍: Driven by advances in technology and experimental capability, the last decade has seen the emergence of quantum technology: a new praxis for controlling the quantum world. It is now possible to engineer complex, multi-component systems that merge the once distinct fields of quantum optics and condensed matter physics. EPJ Quantum Technology covers theoretical and experimental advances in subjects including but not limited to the following: Quantum measurement, metrology and lithography Quantum complex systems, networks and cellular automata Quantum electromechanical systems Quantum optomechanical systems Quantum machines, engineering and nanorobotics Quantum control theory Quantum information, communication and computation Quantum thermodynamics Quantum metamaterials The effect of Casimir forces on micro- and nano-electromechanical systems Quantum biology Quantum sensing Hybrid quantum systems Quantum simulations.
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