@article{CAO2024, 
author = {Shuo CAO and Lingru KONG and Zeng DU and Yongqing LI},
title = {CONDUCTING A SERIES OF EXPERIMENTS ON VISIBLE LIGHT, INFRARED RAY AND TERAHERTZ WAVE IMAGING TO CULTIVATE TALENTS WHO CAN SOLVE REAL PROBLEMS},
year = {2024},
journal = {Physics and Engineering},
volume = {34},
number = {2},
pages = {110-114},
keywords = {Industry 4.0, the multilevel physical experiment, three industrial revolutions, visible light-infrared ray-terahertz wave imaging},
url = {https://www.sciopen.com/article/10.26599/PHYS.2024.9320216},
doi = {10.26599/PHYS.2024.9320216},
abstract = {The research results of physics have strongly promoted the development of the three industrial revolutions. Since the beginning of the new century, the research results of contemporary physics such as quantum computing, low-dimensional physics, and quantum detection are promoting the in-depth development of the fourth industrial revolution or the Industry 4.0. The authors implement multi-level physics experimental topics in university physics experiments. Taking the visible light-infrared ray-terahertz wave detection and imaging series experiments as an example, the authors train students to deeply understand the similarities and differences in the applicability of electromagnetic waves of different bands in new and old industrial fields. The teaching model design is conducive to students mastering the results of modern and contemporary physics and comprehensive experimental skills, cultivating them to become new science and engineering talents who can solve real problems faced by new industrial fields. They will face the new technological revolution and career choices confidently.}
}