Article Open Access http://dx.doi.org/10.26855/tpqm.2024.12.001
Training and Promotion of Innovative Thought in Condensed Matter Physics Experiments
Jiaqi He1, Liang Wu2, Haoxuan Ding3, Xin Zhang1, Wenliang Zhu1, Jianzhi Gao1, Minghu Pan1,4,*
1School of Physics and Information Technology, Shaanxi Normal University, Xi'an 710119, Shaanxi, China.
2School of Foreign Languages, Huazhong University of Science and Technology, Wuhan 430074, Hubei, China.
3School of Physics and Astronomy, University of Birmingham, Birmingham B15 2TT, UK.
4School of Physics, Huazhong University of Science and Technology, Wuhan 430074, Hubei, China.
*Corresponding author: Minghu Pan
Published: December 9,2024
Abstract
In order to cultivate students' innovative consciousness and ability, the changing their way of thinking is primarily important. By introducing condensed matter physics experiments into undergraduate teaching in advance, which can train students in innovative thinking at the academic frontier. This paper selects a typical example of case in the field of surface physics, i.e. mercaptan molecular self-assembly structure, combined with the ultra-high vacuum and low temperature scanning tunneling microscope technique, uses the experimental exploration method of controlling variables, and introduces a set of independently designed experimental teaching scheme based on the knowledge learned in quantum mechanics and solid physics, as well as the method of how to change students' thinking mode in this experimental teaching. In addition to training innovative thinking in the experiment, we also integrate the curriculum thought and politics into the experimental teaching, thereby guide students to establish the learning concept of analyzing the essence of physics based on physical phenomena, the awareness of independent problem-solving, reverse thinking and engineering thinking, and help students establish a practical and realistic dialectical materialist world outlook and values.
References
[1] Ma Shihong, Zhao Zaizhong, Wang Yu, Shen Yuanhua. Establishing experimental elective courses to cultivate students' innovative abilities [J]. Physics Experiment, 2002(03):27-29.
[2] Ying Zhouwu. Cultivation of students' innovative thinking ability in experimental teaching [J]. Physics Experiment, 2007, No. 197(01): 24-26.
[3] Xuan Kai. Analysis of the principle of scanning tunneling microscope based on computer simulation[J]. Electronic Manufacturing, 2019(14):17-21.
[4] Huang Siyuan, Tian Huanfang, Zheng Dingguo, Li Zhongwen, Zhu Chunhui, Yang Huaixin, Li Jianqi. Development and application of high spatial and temporal resolution transmission electron microscopy [J/OL]. World Science and Technology Research and Development: 1-17 [2022-04-26].
[5] Liu Yi. Physical concrete course design of Fourier series [J/OL]. College Physics: 1-4 [2022-04-28].
[6] Wang Zhaoyang, Wang Hongwei. Computer simulation of quantum tunneling effect atomic model in STM [J]. Journal of Shenyang University of Aeronautics and Astronautics, 2014, 31(02): 84-86.
[7] Ding H, Gao J, Zhao H, et al. Perturbational Imaging of Molecules with the Scanning Tunneling Microscope[J]. The Journal of Physical Chemistry C, 2020, 124(47): 25892-25897.
[8] Chen Guohua, Cheng Minxi. A review on integrating ideological and political education into university physics classes[J]. Bulletin of Physics, 2021(03):2-6.
[9] Chao Luomeng, Liu Jia. Discussion on the Reform of Modern Physics Experiment Teaching under the New Situation[J]. Science and Technology Vision, 2021(05):25-26.
[10] Wang Xinshun, Wang Benyang, Zhang Libin. Training and improvement of students' innovative thinking in college physics experiments[J]. Laboratory Research and Exploration, 2021, 40(02): 244-247.
How to cite this paper
Training and Promotion of Innovative Thought in Condensed Matter Physics Experiments
How to cite this paper: Jiaqi He, Liang Wu, Haoxuan Ding, Xin Zhang, Wenliang Zhu, Jianzhi Gao, Minghu Pan. (2024). Training and Promotion of Innovative Thought in Condensed Matter Physics Experiments. Theoretical Physics and Quantum Mechanics, 1(1), 1-6.
DOI: http://dx.doi.org/10.26855/tpqm.2024.12.001