Abstract

The 2024 3^rd International Conference on Electronics and Integrated Circuit Technology (EICT 2024) took place in Nanchang, China from April 12^th to 14^th, 2024 via virtual form. The main goal was to bring together scientists, researchers and developers engaged in fields of electronics and integrated circuit technology to bridge the gap between research needs and advanced technological solutions.

EICT 2024 focused on research areas such as Electronic Science and Technology, Integrated Circuit Design and Integrated System, Electronic and Optical Information Technology, Integration of New Sensing Technologies and Applications, Semiconductor Sensing Electronics, etc., with high academic value. The Conference provided an opportunity for researchers in the fields and related personnel to present their recent theoretical developments as well as practical applications, discuss unsolved problems, and find solutions to them, fostering research and development in electronics and integrated circuit technology.

The Conference attracted experts, scholars, researchers, enterprise representatives and relevant personnel from all over the world, showing wide international influence. They shared the latest research results, exchanged technical experiences and explored cooperation opportunities at the Conference, jointly promoting the development of electronics and integrated circuit technology.

We would like to highlight the main developments presented at the Conference and introduce the prominent speakers. The invited speakers of the Conference, who performed dramatic speeches on specific subjects combining their own research experience and professional knowledge, are Prof. Wenjie Feng (South China University of Technology, China), Prof. Qiongfeng Shi (Southeast University, China), Prof. Wu Gao (Northwestern Polytechnical University, China), Prof. Chonghua Fang (Dohitech, China), etc. In the study Calculation and Analysis of Quantum Radar Scattering by Prof. Chonghua Fang, a novel method that can deal with the calculation of the orthogonal projected area (A ⊥ ) of the target in each incidence is proposed. In this report, he introduced a three-step computation process of (A ⊥ ), verified the method for typical 2-D targets, and showed some results for typical 3-D convex targets and compared the QRCS with classical radar cross section (CRCS). Meanwhile, he analyzed the superposition of quantum effect of side lobes which means a kind of novel quantum phenomena.

In the final foreword, we would like to thank the speakers, authors, reviewers, and all people involved. We also appreciate the members of Technical Program Committee for giving such an opportunity for all of us to share scientific ideas and new developments at the Conference. Last but not the least, our special acknowledgement also goes to the editors of Journal of Physics: Conference Series, for their preparation and assistance in publishing this paper volume.

The Committee of EICT 2024

List of Committee Member is available in this Pdf.