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上海大学物理学专业攻读硕士学位研究生培养方案

上海大学 /2013-04-20

 

物理学专业攻读硕士学位研究生
培 养 方 案
 
一、培养目标
1.努力学习马列主义、毛泽东思想和邓小平理论,坚持党的基本路线,热爱祖国,遵纪守法,品德良好,学风严谨,具有较强的事业心和献身精神,积极为社会主义现代化建设服务。
2.掌握坚实宽广的基础理论和系统深入的专门知识,熟练掌握一门外语,具有独立从事科学研究工作能力,并在学位论文中做出创造性成果。
3.积极参加体育锻炼,身体健康。
4.本学科以物理学研究发展的前沿问题为主要研究方向,培养掌握坚实物理基础理论、实验技能和先进的计算机分析手段、具有从事科学研究工作能力、在物理学及相关的高科技领域具有解决实际问题能力的高级科技人才,使本学科得到新的发展,为国家的经济建设和社会发展服务。
二、学习年限
硕士研究生的学习年限为3年
三、研究方向
1.超导物性、电子结构与相变
2.微结构中的波动力学
3.低维物理与介观物理
4.引力和相对论天体物理
5.磁性与自旋物理问题
6.超短脉冲、强激光与凝聚态物质相互作用
7.非线性动力学波与信息传输理论
8.微波超导
9.强光与等离子体物理
10.相对论重离子碰撞
11.强子物理
12.半导体物理与器件
13.薄膜物理与器件
14.光信息处理及光纤与光波导技术
15.量子光学与非线性光学
16.物理学中的数值问题及计算物理
17.纳米电子学与器件物理
四、课程设置及学分要求
1.课程设置(见表)
2.课程学分要求:课程学分要达到48学分以上。
五、科学研究和论文工作
1.开题报告
(1) 选题:论文的研究课题应与本专业的前沿研究相关或来自与本专业有关的国民经济中的重大技术问题。
(2) 开题的必要条件:一般应在课程学习结束,取得学分后在第四、五学期内进行和完成。
(3) 对开题报告的要求:开提报告应在5000字以上,内容包括文献综述、选题意义、研究内容、难点与特点、预期成果。
(4) 对开题报告的评审:组织3名高级职称以上的有关教师听取开题报告并进行提问和评议,通过后方可开题。
2.阶段报告
在论文课题研究的中期,对论文的进展情况进行阶段报告和中期考核,以保证按进度进行。若偏差较大,将给予警告。
3.论文答辩
(1) 前提条件:在完成论文并经包括导师在内的初3名高级职称教师初审后方可申请论文答辩。
(2) 评审和答辩:首先进行“双盲”评审,通过后组织校内外同行专家评审答辩。
 
 
 
 


 

物理学学科硕士研究生课程设置
 

 
课程编号
课程名称
学时
学分
开课学期
备注
 
 
 
 
 
 
公共
基础课
001000701
科学社会主义理论与实践
30
2
1
 
001000702
自然辩证法
45
3
2
 
第一
外国语
001000704
公共英语
100
3
1,2
 
011000701
专业英语
40
2
4
 
专业
基础课
专业课
011102701
高等量子力学
40
4
2
任选
3门
011102702
固体量子理论
40
4
2
011102703
近代物理实验原理与分析仪器
40
4
1
011102704
凝聚态物理导论
40
4
1
011102705
激光物理
40
4
1
011102706
非线性光学
40
4
2
011102707
光电子技术基础
40
4
3
011102708
物理学中的数学方法
40
4
2
011102709
高等电磁场理论
40
4
1
011102710
非线性物理学导论 ( I )
40
4
2
011102711
量子统计物理
40
4
2
011102712
量子场论
40
4
1
 
 
 
 
 
      
 
 
 
 
 
 
 
 
 
 
 
文献
阅读
研讨课
 
 
 
 
 
 
 
 
 
 
文献
阅读
研讨课
 
 
 
 
011102922
自旋及其相关问题
40
4
2
 
011102923
群论在物理学中的应用
40
4
3
011102903
物质缺陷的拓扑结构
40
4
3
011102904
极端条件下的凝聚态物质的物性
40
4
3
011102921
低维物理和人工超结构
40
4
1
011102906
固体的电子结构与相变
40
4
1
011102907
现代光谱技术
40
4
2
 
 
 
 
光学
专业
 
 
011102909
弯曲时空中光的传播
40
4
2
011102910
非线性光学
40
4
3
011102911
强光与等离子体物理
40
4
3
011102924
近场光学和信息光学
40
4
1
011102920
短脉冲与超快现象
40
4
3
011102913
非线性电磁动力学波理论
40
4
1
 
 
无线电物理
专业
 
 
 
011102914
波包传输理论
40
4
2
011102915
低维强关联与高温超导电性
40
4
1
011102916
微波超导非线性效应
40
4
3
011102917
固态电子材料与器件
40
4
2
011102918
介观体系中的输运特性
40
4
3
学术
研讨课
 
 
 
 
 2  
 

 
 


Master Program for Physics
 
1. Objective of the Program
1.1 The doctoral candidates are expected to do the following: tomaster Marxism, Mao Zedong Thought and Deng Xiaoping Theory; to adhere to CPC fundamental political line; to have a great affection for our motherland; to follow disciplines and obey laws; to have good moralities; to be rigorous in study style; to be enterprising and ambitious; to be devoted to the cause he (she) aspires; to actively participate socialist modernization drive.
1.2 The doctoral candidates are also required to lay a solid foundation in basic theories and acquire systematic& profound specialized knowledge; to be proficient in using a foreign language; to obtain preliminary knowledge in a second foreign language; to be able to conduct scientific research independently; to achieve creative results in his (her) dissertation.
1.3 He or She should take an active part in physical exercises and have a good physique.
1.4 This program’s main interest is the frontiers in Mechanics. It aims to foster students' competence in mathematics, mechanics and physics and advanced computer analysis methods. Therefore, they could independently start research and solve problems and thus they could successfully develop mechanics and serve the society.
 
2. Duration of the Program
3 years for Doctoral candidates
 
3. Main Interests
1).Superconductivity, Electronic Structure and Phase Transition
2).Wave Dynamics in Micro-structure
3).Low-dimensional Physics and Mesoscopic Physics
4).Gravitation and Relativistic Astrophysics
5).Magnetism and Spin physics
6).Interaction of Ultra-short and High-power Lasers with Condensed State Mater  
7).Nonlinear Dynamic Waves and Information Transport 
8).Microwave Superconductivity
9).High Power Lasers and Plasma Physics
10).Relativistic Heavy-ion Collision
11).Hadron physics
12).Semi-conductive Physics and Devices 
13).Thin-film Devices 
14).Optical Information Processing, Optical Fiber and Optical Guide Technique
15).Quantum Optics and Nonlinear Optics
16).Numeric Analysis in Physics and calculating
17).Nano-Electronics and Devices
 
4. Courses
4.1 Courses (see the chart)
4.2 credits: at least 44 credits
 
5. Research and Dissertations
5.1 Proposal
(1) Te theme
The dissertation should be relevant with frontiers of mechanics or relevant with great techniques concerning national economy.
(2) Prerequisites  
It should be at the end of courses and carried on and completed at the fourth and fifth term after obtaining the credits. 
(3) Requirements   
 The report should be at least 5000 words and include literature summary, the meaning of the dissertation, research aim, difficulties, features, expected results.
(4) Check and approval  
Public seminars are required. Three or more teachers with senior academic titles should attend the presentation and give their comment; the writing of the dissertation can be prepared after the pass of the check.
5.2 In-progress report
At the middle of writing, candidates should submit reports concerning dissertation so as to ensure the dissertation may proceed as schedule. If the warp is rather big, warning will be given. 
5.3 Oral defense of the dissertation
(1) Qualifications
Before the oral defense, candidates are required to finish dissertation and pass the check and recheck organized by three or more teachers with senior academic titles.
(2) Dissertation examination and oral defense
 Organize the colleagues and experts inside and outside the school to appraise the reply to reply after anonymous check.
 
 


Curriculum
 
Category
Course number
Courses name
Period
Credit
Term
Remark
Academic degree courses
Political theoretical courses
001000701
Theory and Practice of Scientific Socialism
30
2
1
 
001000702
Nature Dialectics
45
3
2
 
first
foreign language
001000704
Public English
100
3
1,2
 
011000701
Special English
40
2
4
 
 
Basic and specialty courses
 
011102701
Advanced Quantum Mechanics
120
4
2
Choose three courses according to specialty
011102702
Quantum Theory of Solid
State Physics
40
4
2
011102703
Experimental Methods and Instruments in Modern Physics
40
4
1
011102704
Introduction to Condensed State Physics
40
4
1
011102705
Laser Physics
40
4
1
011102706
Nonlinear Optics
40
4
2
011102707
Foundation of Photonics
Technique
40
4
3
011102708
Mathematic Methods in Physics
40
4
2
011102709
Advanced Electromagnetism
40
4
1
011102710
Introduction to Nonlinear
Physics I
40
4
2
011102711
Quantum Statistical Physics
40
4
2
011102712
Quantum Field Theory
40
4
1
Required courses
 
 
 
Literature reading Seminar
 
 
 
 
 
Literature reading Seminar
 
011102901
Interaction of High Power Laser with Condensed State Physics
40
4
1
 
011102923
Application of Group Theory in Physics
40
4
3
 
011102903
Topologic Structure in Matter defects
40
4
3
 
011102904
Condensed State Matter
in Ultra-Physics
40
4
3
 
011102905
Physics of Semi-conductive Devices
40
4
2
 
011102906
Electronic Structure and Phase Transition in Solid
State
40
4
1
 
011102907
Modern Optical Spectra
40
4
2
 
011102908
 Photonics
40
4
1
 
011102909
Light Propagation in Curved Space-time
40
4
2
 
011102910
Nonlinear Optics
40
4
3
 
011102911
High Power Lasers and
Plasma Physics
40
4
3
 
011102912
Near-Field Optics and
Information optics
40
4
1
 
011102913
Theory of Nonlinear Electromagnetic Dynamic Waves
40
4
1
 
011102914
Theory of Wave Packet Propagation
40
4
2
 
011102915
Strongly Correlated Low-Dimensional Systems and High Tc Superconductivity
40
4
1
 
011102916
Nonlinear Effects in
Microwave Superconductivity
40
4
3
 
011102917
Solid State Electronic
Materials and Devices
40
4
2
 
011102918
Transport Features in Mesoscopic systems
40
4
3
 
011102919
Spin and Spin Physics
40
4
2
 
011102920
Ultra-short Pulses and
Ultra-fast Phenomena
40
4
3
 
011102921
Low-Dimensional Physics and Artificial Super-Structure
40
4
2
 
Seminars
 
 
 
2
 
 
 
 
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