Postgraduate Program of Physics for Overseas Students

Author:  Source:  Date:2018-08-24 15:56:19 Browser:

全英文授课外国来华留学硕士研究生物理学科培养方案

Postgraduate Program of Physics for Overseas Students

(学科代码:0702 

(Subject Code0702)

一、培养目标Training Objectives

本专业旨在培养物理学科领域中具有坚实理论基础和专业应用能力的高素质人才。通过学习现代物理的前沿和最新进展,熟练掌握相关物理实验技能和技术,毕业生将掌握扎实的物理基础,解决工程和技术中的实际问题。通过本专业的学习,能够锤炼学生严谨的学习态度和求实的科研作风,培养独立进行科学研究和开展技术工作的能力、较强的创新意识、较高的文化素养、良好的团队合作精神和国际化视野。

This program is aimed to training high-quality talents with solid fundamental knowledge and professional application skills in the field of Physics. The students will learn frontiers and recent developments in modern physics, and acquire experimental skills and basic diagnostic techniques. The graduates will lay a solid foundation in physics and be able to solve practical problems in engineering and technology. Furthermore, students’ stringent attitude toward learning and realistic style in research will be developed. The graduates will have high capabilities in independent scientific research and technology development, a strong sense of innovation, higher literacy, good teamwork spirit, as well as an international outlook.

 

二、研究方向Research Orientations

1. 光学 Optics

1.1 光学环境感知技术及应用 

Optical Environment Sensing Technology and Application

1.2 光学微纳加工技术 

Optical Micro-nano Processing Technology

 

2. 材料物理 Material Physics

2.1 新超导体探索以及强关联系统的物性研究

New Superconductors and Physical Properties of Strongly Correlated Systems

2.2 新型能源材料(包括碳纳米管,石墨烯)研究

New Energy Materials (e.g., carbon nanotubes, graphene)

 

3. 量子信息物理 Physics in Quantum Information

3.1  量子信息与量子计算 

Quantum Information and Quantum Computation

3.2  量子计量学

Quantum Metrology

3.3  量子开放系统与耗散理论

 Quantum Open System and Dissipative Theory

 

三、培养要求 Training Requirement

1. 掌握物理学科的基本理论和基本知识,了解物理学科最新发展动态和应用研究。

Grasp the fundamental theories and knowledge in Physics, and get to know the new development and applied research in Physics.

 

2. 光学方向:掌握光学加工和设计的基本技术;材料方向:掌握材料制备和性能分析测试的基本技术;量子信息方向:掌握量子信息基本理论、编程和计算能力,以及实验方法。

Optical Orientation: Grasp basic skills in optical fabrication and design; Material Physics Orientation: Grasp basic skills in material preparation, characterization, analysis and testing; Quantum Information Orientation: Grasp basic theories in quantum information, computer programming, and experimental methods.

 

3. 具备新产品、新技术研究开发的基本能力。

Basic abilities in developing new products and techniques.

 

4. 具有较强的应用英语和专业英语能力。

Have good command of Applied English and Physics in English.

 

5. 掌握文献检索、资料查询的基本方法,具有独立获得新知识的能力。

Proficiency in literature searching and reviewing, being able to gain new knowledge independently.

 

6. 具有较强的开展独立科学研究和实际技术工作的能力。

Ability of carrying out scientific research and technical works independently.

 

四、学习年限Length of Schooling

全日制全英文硕士研究生的基本学制为3 年,其中课程学习11.5 年,参加科研、撰写学位论文和论文答辩的时间为1.52 年。最长修业年限为5 年。

由于在校期间所做课题或学位论文的需要,自愿申请延长学习年限的(延长期内应按规定缴纳学习与住宿费用),由本人提出申请,经导师、所在二级学院及留学生中心(以下简称留管中心)同意,报学校研究生处审核批准,可延长学习年限,申请延期毕业,但不能超过学校规定的最高修业年限即5 年。

The length of schooling for full-time graduate students is 3 years, in which 1~1.5 years for course study and 1.5~2 years for research and dissertation. The maximum duration is 5 years.

Extension to a maximum of 5 years can be applied if there are sufficient reasons. But the application must be submitted to relevant department 3 months in advance before graduation to get the permission.

Master of Science will be awarded after fulfilling all the requirements.

 

五、课程设置与学分要求  Curriculum and Credit Requirements

硕士研究生课程由公共学位课、学科学位课、学科选修课以及专业实践环节四部分组成,实行学分制,学位课(必修课)不少于18 学分,非学位课(选修课)不少于8 学分,必修环节3 学分,总学分不少于29 学分。

具体课程设置附后。

The postgraduate curriculum is composed of public degree courses, professional degree courses, selective courses and professional practice courses. The students should get 18 credits at least from degree courses, 8 credits at least from non-degree courses and 3 credits at least from practices. 29 credits would be required for graduation.

Attached is the detailed curriculum schedule.

 

六、培养方式  Training Methods

1 硕士生培养采取导师负责制,以课程学习、科学研究、新技术开发及相应的项目研究工作为主要方式。

Supervisor takes the responsibility of the student’s study and research program which is mainly comprised of course learning, scientific research or new technology development and/or its related project research.

 

2. 研究生须在修满本学位点要求的29 学分之外,在导师指导下,独立承担与本专业相关的课题研究,并取得阶段性研究成果后,方可申请答辩。

In addition to fulfilling the minimum requirements of 29 credits, the master degree students should undertake research programs related to their major fields and get certain research achievements, before applying for thesis defense.

 

3. 主要实践环节 (Main Practice/Internship).

科研实践、文献综述与开题报告、学术报告、毕业设计(论文)

It includes Science Research Practices, Literature Review and Thesis Proposal, Academic Report, and Process Design (or Dissertation).

 

七、培养过程实施 Performance of Training Process

1. 制订个人培养计划 Formulating a personal training proposal

研究生入学后一个月内,在导师的指导下根据本学科培养方案和研究生本人的具体情况确定研究方向与制订个人培养计划,经学位点负责人审定后实施。

The student should make his/her research direction and individual training proposal decided under the guidance of his/her supervisor, according to the master curriculum and his/her orientation, within one month after enrollment. The training program shall be implemented after being approved by the head of the academic degree program.

 

2. 开题报告Thesis Proposal

研究生应系统地查阅国内外有关文献,了解国内外科技动态,并对收集的资料做出分析和评述,指出需要解决的问题和方法,在导师指导下提出论文工作计划,并做开题报告。

The student should systematically review literatures published, know well the trend of scientific and technological development of his/her research filed, analyze and comment the collected information, point out the issues need to be resolved and possible solutions, and make open research proposals under the guidance of his/her supervisor.

 

3. 学位论文Dissertation

学位论文必须在导师的指导下由研究生本人独立完成。

The dissertation should be completed independently by the graduate student under the guidance of his/her supervisor

论文中的科学论点要概念清楚、论据充分;对所选用的研究方法要有科学根据,理论推导正确,计算结果无误,实验数据真实可靠,分析严谨;对结论应作理论上的阐述,引用他人的材料要引证原著。论文应有创新性成果。论文要求词句精练通顺、条理分明、逻辑性强、文字图表清晰整齐。凡需保密的论文应注明密级。

The results in the dissertation should be clear and supported with sufficient evidences; the research methods should be scientific, and the theoretical derivations and calculations should be correct; the experimental data should be true and rigorously analyzed; the conclusions should be supported with theoretical statements and citations of the original literatures should be used. The dissertation should have some innovative achievements. The language of the dissertation should be concise, fluent and logical; the texts, figures and tables should be clear and tidy. For the confidential dissertations, the confidential levels should be marked.

学位论文格式要求参见《我校研究生学位论文格式的统一要求》。

Format requirements of the dissertation can be referred to “Uniformed format requirements for graduate dissertations of Zhejiang University of Science and Technology”.

 

4. 论文评阅、答辩Peer review, Oral defense

参见《我校关于印发外国来华留学硕士研究生培养工作规定(试行)的通知》。

Refer to “Regulations for cultivation of foreign master degree students of Zhejiang University of Science and Technology”.

 

5. 学位授予Degree-conferring

参见《我校关于印发外国来华留学硕士研究生培养工作规定(试行)的通知》。

Refer to “Regulations for cultivation of foreign master degree students of Zhejiang University of Science and Technology”.

 


 

物理学科全英文授课外国来华留学硕士研究生课程设置

Curriculum Schedule

 

 
Category

课程编号
Curriculum
Serial Number

   
Course Name

总学时
Total
Hour

学分
Credit

开课学期
Term

考核方式
Assessment
Methods

备注
Remark

学位课

Degree

Courses

公共课
Common
Courses

00000152001E

中国概况(英)
Chinese Survey

32

2

1

考试
Test

公共课必修

8 学分)

Common Course Obligatory

 (8 credits)

必修(18 学分)Obligatory (18 credits)

 

00000154003

汉语
Chinese Language

64

4

1

考试
Test

00907022030E

文献检索与论文写作(英)
Scientific Documents
Retrieval and Paper Writing

32

2

2

考查
Test

学科类

学位课

Subject Degree

Courses

00907024001E

高等量子力学

Advanced Quantum Mechanics

64

4

1

考试
Test

平台课必修

7 学分)

Platform Courses Obligatory

 (7 credits)

00907023002E

数值计算方法(英)
Numerical Computation
Technique

48

3

2

考试
Test

00907023003E

现代光学基础 

Foundation of Modern Optics

48

3

2

考试
Test

方向课必修

3 学分)

Major Course Obligatory

 (3 credits)

学生根据研究方向,从学科类学位方向课三门中选一门。

Based on the research orientation, the students should choose one of the three Major Courses.

00907023004E

凝聚态物理导论 

Introduction to Condensed Matter Physics

48

3

2

考试
Test

00907023005E

量子信息 

Quantum Information

48

3

2

考试
Test

非学

位课
Non-

degree
courses

学科类

选课修
Subject
elective
courses

00907023010E

量子耗散理论 

Quantum Dissipative Theory

48

3

2

考试
Test

选修
8 学分)
Selective
(8 credits)

00907023011E

量子多体理论 

Quantum Multibody Theory

48

3

3

考试
Test

00907023012E

量子光学 

Quantum Optics

48

3

3

考试
Test

00907023013E

固体物理 (II)

Solid State Physics (II)

48

3

3

考试
Test

00907023014E

材料物理

Material Physics

48

3

3

考试
Test

00907022015E

群论在物理学中的应用 

The Application of Group Theory in Physics

32

2

1

考试
Test

00907022016E

凝聚态物理实验方法

Experimental Methods of Condensed Matter Physics

32

2

3

考试
Test

00907023017E

微纳光学 

Micro-nano Optics

48

3

3

考试
Test

00907023018E

激光光谱学 

Laser Spectroscopy

48

3

2

考试
Test

00907023019E

光电传感检测 

Photoelectric sensing detection

48

3

3

考试
Test

必修环节
Compulsory
courses

00907021020E

实践实习
Practices

5
5 Weeks

1

1-5

考查

Check

必修
3 学分)
Obligatory
(3 credits)

00907021021E

文献综述与开题报告
Review and Opening Lecture

1 
Once

1

2

考查

Check

00907021022E

学术报告
Academic Seminar

3 次以上

> 3 Times

1

1-3

考查

Check

小计
Subtotal







29 credits