高能物理课题:大型强子对撞机背后的奥秘探究

方向:理工

专业:自然科学

适合人群:物理学,物理,光电

是否可以加论文:

项目时长及形式:英文

产出:

7周在线小组科研学习+5周论文辅导学习 共125课时

学术报告

主导师Reference Letter

EI/CPCI/Scopus/ProQuest/Crossref/EBSCO或同等级别索引国际会议全文投递与发表(可用于申请)

结业证书

成绩单

项目介绍:

项目将追踪粒子物理学的思想历史,从粒子物理的开端入手,介绍力载玻色子的产生、原理,给学生介绍最先进的物理学研究,将遵循电磁、弱相互作用和强相互作用理论的发展,研究粒子物理电弱标准模型、物理对撞机的工作原理以及量子场论的缺点及克服方法。最终带领学生探索新物理学(susy & 外来粒子)。学生通过本项目的学生可以对粒子物理在生活、医学、信息等领域的应用有更为深刻的认识。在项目结束时,学生将对不同领域下新高能粒子物理技术进行分析探讨,提交项目报告,进行成果展示。

个性化研究课题参考:

LHC的标准物理学模型研究

希格斯玻色子的性质研究

寻找新的物理学:SUSY和外来粒子

中微子物理学:超级神冈探测器发现太阳中微子失踪的奇特现象

反物质实验研究

This project will track the history of particle physics, start from the beginning of particle physics, introduce the generation and principle of force-carrying bosons, and introduce students to advanced physics research, which will follow the electromagnetic, weak interaction and strong interaction theories, and the development of the research on the standard model of particle physics, the working principle of the physical collider, the shortcomings of quantum field theory and the ways to overcome them. Finally it will lead students to explore new physics (susy & alien particles). Students can have a deeper understanding of the applications of particle physics in life, medicine, information and other fields through attending this project. At the end of this project, students should analyze and discuss new high-energy particle physics technologies in different fields, submit their project reports, and demonstrate results.

Suggested Research Fields:

Standard Model Physics at the LHC

Higgs boson properties

Search for new physics: SUSY and exotic particles

Neutrino physics:The Super Shinoka probe finds the strange phenomenon of the disappearance of neutrinos in the sun

Experiments with antimatter

Quantum computing

高能物理课题:大型强子对撞机背后的奥秘探究

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