一、培养目标
I.Training objectives
本专业通过引进俄罗斯新西伯利亚国家研究型国立大学课程体系、教学方法,借鉴研究型大学独特的管理理念,采用国际合作培养的模式,培养培养德智体美劳全面发展,具有宽厚扎实数学物理学基础,掌握规范化的物理学实验方法和技能,受到体系化的基础研究或应用研究训练,具有科学的思维方式,具有较强适应能力与团结协作精神,具有国际化视野,具备跨国学习、工作及终身学习能力,能从事物理学及相关学科的科学研究、技术研发等工作的高素质、多元化、创新型本科人才。
By introducing the curriculum system and teaching methods of Novosibirsk National Research Sate University in Russia, drawing on the unique management concepts of research universities, and adopting an international cooperation training model, this program aims at cultivating high-quality, diversified, and innovative undergraduate talents who are well-rounded in morality, intelligence, physical fitness, aesthetics, and labor skills, have a solid foundation in mathematics and physics, master standardized physics experimental methods and skills, receive systematic basic or applied research training, have a scientific thinking mode, strong adaptability and spirit of unity and cooperation, have an international perspective, possess cross-border learning, work, and lifelong learning abilities, and can engage in scientific research, technological research and development in physics and related disciplines.
二、毕业要求
II.Graduation requirements
(一)知识架构
(I) Knowledge structure
1. 具备坚实的物理学基本理论和专业知识;
Have a solid foundation in fundamental physics theories and professional knowledge
2. 具有扎实的数学和计算机等知识基础;
Have a solid foundation in mathematics, computer science, and other related knowledge
3. 掌握实验与实践所需的多种技术和技能;
Master various techniques and skills required for experimentation and practice
4. 了解物理学的前沿科学知识。
Understand the cutting-edge scientific knowledge of physics
(二)能力水平
(II) Ability level
1. 具备运用物理相关知识解决问题及进行科学研究的能力;
Ability to apply physics related knowledge to solve problems and conduct scientific research
2. 具有较强的英语表达、人际交往、团队协作和跨文化交流能力;
High level of English proficiency, including expression, interpersonal communication, teamwork, and cross-cultural communication.
3. 具备独立思考判断能力,能够根据现行法律规范、可用资源和限制条件,确定既定目标内的任务范围,并选择最佳方法加以解决;
Independent thinking and judgment to determine the scope of tasks within established goals based on current legal norms, available resources and constraints, and choose the best method to solve them.
4. 识别并纠正工作场所中与违反安全相关的问题,遵守并解释集体和个人防护设备的使用规则。
Identify and correct safety related issues in the workplace, comply with and explain the rules for using collective and personal protective equipment.
(三)综合素质
(III) Comprehensive quality
1. 能够驾驭和应对未来,具有成为本领域优秀人才的潜质,包括具有社会责任感和国际视野,具备健全人格和良好职业道德。
To navigate and cope with the future and have the potential to become an outstanding person in the field, including having social responsibility and international vision, a sound personality and good work ethics.
2. 具备批判性思维、科学精神和实践能力,可成长为行业和社会中的骨干人才;
Possess critical thinking, scientific spirit, and practical abilities, and can grow into backbone talents in the industry and society
3. 具有终身学习意识,能够根据终身学习原则管理时间,实现自我发展。
Having a lifelong learning mindset. Manage time according to the principle of lifelong learning, and achieve self-development.
三、学制与学位
III.Duration of study and degree
全日制,基本修业年限为4年。学校实行学分制教学管理和弹性学习年限,学生在校学习年限最短为4年,最长为6年。
Full time, with a basic study period of 4 years. The school implements a credit based teaching management and flexible study period, with students having a minimum study period of 4 years and a maximum study period of 6 years.
基本学制情况下,学生前3年在500彩票
学习,第4年赴俄罗斯新西伯利亚国家研究型国立大学学习。圆满完成本项目所规定学术要求的学生将获得500彩票
颁发的普通高等学校毕业证书和理学学士学位证书,以及俄罗斯新西伯利亚国家研究型国立大学颁发的物理学学士学位证书。
Under the basic education system, students study at Chongqing University for the first three years and then study at the Novosibirsk National Research State University in Russia in the fourth year. Students who successfully complete the academic requirements specified in this program will receive a graduation certificate from Chongqing University and a Bachelor of Science degree certificate, as well as a Bachelor of Physics degree certificate from Novosibirsk National Research State University in Russia.
四、专业核心课程
IV.Major core courses
专业导论,复变函数,数学分析基础,线性代数与几何,普通物理,原子与分子物理学,数学物理方法,力、热学实验,理论力学,电动力学,电磁学实验,量子力学,光学实验,计算物理学基础,热力学与统计物理,固体物理,近现代物理实验技术,物理计算机模拟,半导体器件物理学,力学与相对论,凝聚态物理。
Introduction to the major, Complex Variables Functions, Fundamentals of Mathematical Analysis, Linear Algebra and Geometry, General Physics, Atomic and Molecular Physics, Method of Mathematical Physics, Mechanical and Thermal Experiments, Theoretical Mechanics, Electrodynamics, Electromagnetics Experiment, Quantum Mechanics, Optical Experiment, Fundamentals of Computational Physics, Thermodynamics and Statistical Physics, Solid State Physics, Modern Phycial Experimental Technology, Computer Simulation on Physics, Physics of Semiconductor Devices, Mechanics and Relativity, Condensed Matter Physics
