摘要
为培养学生的创新意识和动手能力,建立了基于金刚石氮-空穴色心的固态量子精密测量教学实验系统,采用单芯片级别的微波源和基于开源硬件的时序控制和数据采集系统,可节省成本且保留扩展升级能力.同时介绍了相关的教学思路和教学设计,该课程采用层进式和启发式教学,提供了从原理、实验、思考到讨论的系统性教学内容.
In order to improve innovative sense and hands-on ability of students,a teaching experiment system for solid-state quantum precision measurement based on a diamond nitrogen-vacancy(NV)color center had been established independently,using a single-chip level microwave source and an open-source hardware-based timing control and data acquisition system,which saved cost while maintaining a rich expansion and upgrade capability.Relevant teaching ideas and instructional design were presented.The course was cascaded and heuristic,providing a systematic teaching content consisting of principles,experiments,thinking and discussions.
作者
李晓林
叶安
付鼎元
张超
LI Xiaolin;YE An;FU Dingyuan;ZHANG Chao(School of Physics,East China University of Science and Technology,Shanghai 200237,China;Beijing Institute of Spacecraft Environment Engineering,Beijing 100094,China)
出处
《物理实验》
2023年第4期24-31,共8页
Physics Experimentation
基金
上海市自然科学基金项目(No.20ZR1414300)
民用航天预研项目(No.D040301)。
关键词
量子精密测量
金刚石NV色心
教学设计
创新教育
quantum precision measurement
diamond NV center
teaching design
innovation education
