1．具有热爱社会主义祖国、热爱共产党、坚持党的基本路线、遵纪守法的基本政治素质。能自觉学习马列主义、毛泽东思想和邓小平理论。品德良好，学风严谨，具有较强的事业心和献身精神。能理论联系实际，坚持又红又专方向的立志为祖国现代化建设服务的科技人才。

2．具有坚实宽广的基础理论和系统深入的专业知识；能够紧跟科技发展进行知识自我更新、独立从事科学研究的能力；能够在理论、实验或专业技术研究中取得创造性成果的科技人才。

3．“无线电物理”是用现代物理的理论、方法和手段来研究从微波到光波的广阔电磁频谱内相干和非相干电磁波与物质相互作用的重点学科。利用现代理论和现代实验技术研究信息的发生、传输、分配、交换、处理和存储等过程。研究固态电子学理论和技术在通信、遥感、航天、材料、环保和生物医学等领域中的应用。本学科对博士生的培养与上述某一方面的前沿研究或国民经济中的重要应用研究相结合，使其在毕业前能取得实质性研究成果，毕业后能在科学技术领域具有独当一面的能力。

1．博士生的学习年限为3年；

2．硕博连读生的学习年限为4.5-5年；

3．在职博士生的学习年限为4-6年。

1．超导电子学

2．非线性动力学波与信息传输理论

3．信息光电子学与光波技术

4．微波毫米波与信息系统

1．课程设置(见表)

2．学分要求

(1) 三年制博士生：课程学习需获20学分。课程设置2门公共课、1门基础理论课、1门专业课和1门学术讨论课，由专业点统一设置。

(2) 硕博连读生：

博士生课程与三年制相同，硕士生课程免修“科学社会主义理论与实践”。硕博连读生总学分为68学分。

(3) 在职博士生：课程与三年制博士生相同，但时间安排可按“在职任务”的实际状况而灵活安排。

为提高学术水平，要求博士生在攻读期间主讲3次以上学术讨论会并发表3篇学术论文。

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课题。

(2) 开题的必要条件：应修满培养计划规定的学分并提交2-3篇文献阅读专题报告或学术讨论会小结报告。

(3) 对开题报告的要求：在入学一年内(三年制博士生)或两年内(硕博连读生、在职博士生)完成8000字以上的开题报告。内容包括文献综述、选题意义、研究内容、难点与特点、预期成果和可能的创新点等部分。引用文献不少于50篇。

(4) 对开题报告的评审：组织7名以上高级职称(教授不少于4名)的有关教师听取开题报告和进行评议，评审通过后方可开题。开题报告为公开性报告。

2．阶段报告

在论文课题研究的中期，在与开题报告相似的范围内，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，给予黄牌警告。

3．论文答辩

(1) 必要条件

a．已在核心期刊发表或录用3篇论文；

b．已主讲3次以上学术讨论会，每次讨论会都具有500字以上的学术小结，且导师的评定成绩合格；

c．完成博士论文，经指导教师初审，2-3位教授复审通过。

(2) 评审和答辩

由本学科点博士生指导小组和指导教师审议，7-9名左右的同行专家通信评审，有5名以上专家同意答辩后，按专家意见修改论文，组织答辩。若未通过答辩，按研究生部的规定处理。

 

类 别		课程编号	课程名称	学时	学分	开课 学期	备注
学 位 课	公共 基础课	000000701	现代科学技术革命与马克思主义	60	3	1,2
		000000703	第一外国语(英语)	120	4	1,2
	专业 基础课 专业课	010202703	电磁场的严格解及其近似方法	40	4	2
		010202702	非线性物理学导论(Ⅱ)	40	4	2
必修课	学术 研讨课				5

 

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 It adopts the theories and methods of the modern physics to investigate the interactions between electromagnetic wave and matter from microwave and optical frequencies. The current experimental expertise and the new research achievement on solid state electronics are also utilized in the discipline to investigate the generation, transmission, distribution, exchange, disposition and storage of information. The graduates cultivated in this discipline have solid theoretical base and ability of application and research.

 

3 years for Doctoral candidates

4.5-5 years for master-doctor degree

4-5 years for in-service Doctoral candidates

 

3.1 Microwave Superconductor

3.2 Nonlinear Waveguide and Theory of Information Transmission

3.3 Information Photonics and Electronics , lightwave propagation technology

3.4 the Theory, Technology and Application of Microwave and Millimeter Wave

 

4.1 Courses (see the chart)

4.2 Credit Demand

(1) For three-academic-year doctoral candidates: at least 20credits, including 2 common courses 1 basic course, 1 special course and 1 seminar.

(2) For master-doctor degree candidates: at least 68 credits, the doctor course is the same as three-academic-year doctoral candidate.

(3) For in-service Doctoral candidates: the same as the three-academic-year doctoral candidates while the course selectivity is according to the business.

4.3 doctoral candidates are required to participate in or give 3 seminars during academic years and publish 3 papers.

 

5.1 Proposal

5.1.1 The theme

The dissertation should be relevant with frontiers of condensed matter physics or relevant with great techniques concerning national economy.

5.1.2 Prerequisites  

Doctoral candidates are required to obtain credits required and submit 2-3 literature reading reports or seminar reports.

5.1.3 Requirements   

Three-academic-year doctoral candidates are required to submit an 8000 word report within one year after the enrollment, in-service doctoral candidates and master-doctoral candidates are required to finish the report within 2 years. The report should include literature summary, the meaning of the dissertation, research aim, difficulties, features, expected results, would-be innovations, etc. Quoted literatures should be at least 50.

5.1.4 Check and approval  

Public seminars are required. Seven or more teachers with senior academic titles (including 4 professors) 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.

5.3.1 Qualifications

Before the oral defense, candidates are required to have 3 papers published in key periodicals

Candidates should submit at least 3 seminar summaries which have gotten their tutors’ comments and then oral defense can be applied for.

Before the oral defense, candidates are required to finish dissertation and pass the check and recheck.

5.3.2 Dissertation examination and approval in form of correspondence and oral defense

Doctoral dissertation should be checked by 7-9 experts belonging to one specialty in the form of correspondence. Oral defense can be held with more than 5 experts’ agreements. If the oral defense fails, the dissertation should be dealt with according to regulations made by Graduate Department. 

 

Catagory		Course number	Course name	Period	Credit	Term	Remarks
Academic degree courses	Public basic courses	000000701	Modern Science and Technology Revolution and Marxism	60	3	1,2
		000000703	The first foreign language	120	4	1,2
	Basic specialty courses	010202703	Exact Solutions and Approxunation Methods for Electromagnetic Fields	40	4	2
		010202702	Introduction to nonlinear physics (II)	40	4	2
Required Courses	Seminars				5