Optical 0803

1. Objectives Optical engineering is a cross discipline of and modern science and technology. It is a national key discipline. The major research areas include: advanced manufacturing, new laser and optoelectronics technologies, micro/nano optics, optical information processing, optical communication technology, photoelectric sensor and detection and biophotonics etc. Training objectives for doctoral degree are: to enable students to firmly master the fundamental theory, the systematic and in-depth expertise as well as related experimental methodology and technology in the discipline; to enable students to have the ability to undertake independent research work in the discipline; and to cultivate high-quality top-notch creative talents with innovative spirit and practical ability. The research topics will be closely linked to the current needs of economic and social development in Beijing as well as in China. The ultimate goal is to output senior specialized personnel engaged in scientific research, high-tech development and high level education in the areas of optical engineering, advanced manufacturing, information technology etc.

2. Length of Study Period

Postgraduates classification Normal length of the program Length of study period 4 years full-time 3 to 5 years full-time Doctoral students or 5 years part-time or 5 to 7 years part-time Direct Doctoral students I 5 years full-time 5 to 7 years full-time Direct Doctoral students II 6 years full-time 5 to 7 years full-time Notes: (1) Direct Doctoral students I: Doctoral students pursuing a doctoral degree directly from a bachelor degree (2) Direct Doctoral students II: Doctoral students of successive postgraduate and doctoral programs of study without a master degree The normal length of the program is 4 years; period of schooling should be within in the range of 3-5 years. In general, the longest schooling period for full-time Doctoral students is 5 years (including suspension), and 7 years for part-time students(including suspension). The normal program length for direct doctoral students I is 5 years, and 6 years for direct doctoral students II, period of schooling should be within in the range of 5-7 years. In general the longest period of schooling is 7 years (including suspension).

3. Research Areas (1)Advanced laser manufacturing technology (2)New Laser and optoelectronics technologies (3)Micro/Nano optics (4)Optical information processing and optical communication (5)Photoelectric detection and photoelectric sensor

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(6)Biomedical

4. Curriculums and Credits

4.1 Doctoral students (14 Credits or above)

Course Classification Course Course Name Credit Credits Semester Notes Code Hours

1120361001 Chinese Marxism and 32 2 1 General Contemporary Society Foundation Compulsory 1120181002 First Foreign 64 2 1 Courses Language(English) Mathematical 1120062100 54 3 1 modelling Basic Advanced Laser Foundation 1121012001 Manufacturing Science 48 3 1 Compulsory Courses & Technology ( 6 credits) 1110062501 Photonics 48 3 1 Degree 1120062502 Laser 48 3 1 Coureses Special Topics on (Required) 1121014002 Optical Engineering 32 2 1 Frontiers Optical Information 1120064501 32 2 1 Subject Theory and Technology Foundation 1120064502 Modern Optical Design 32 2 1 Optional Courses ( 2 credits) Photonic Crystal 1120064503 Components and 32 2 1 Applications Photoelectric 1120064504 32 2 1 Information Detection

1120005000 Academic Seminar 1 1-8 Academic Actvities International Academic Compulsory (Required) 1120005001 1 1-8 Communication

4.2 Direct Doctoral students (37 Credits or above)

Stage Course Classification Course Course Name Credit Credits Semester Code Hours

Master 2120361001 Natural Dialectics 16 1 1 Degree General Stage Research on Theory and Coureses Foundation (25 2120361002 Practice of Socialism with 32 2 1 (Required) Courses credits) Chinese Characteristics

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Stage Course Classification Course Course Name Credit Credits Semester Code Hours

First Foreign Language 2120181002 64 2 1 (English)

2120062101 Numerical Analysis 54 3 2

Mathematical Statistics

2120062102 and Stochastic 54 3 1 Basic Processes Foundation Courses Introduction to Laser 2121012001 48 3 1 (6 credits) Science and Engineering

2120062501 Optoelectronics 48 3 1

2120062502 Advanced Optics 48 3 1

Experiments for

2121014002 Advanced Laser 32 2 1

Manufacturing

Laser Micro/Nano 2121014003 32 2 2 Fabrication Technologies

Laser Technologies and 2121014004 32 2 1 Devices Subject Laser Processing Foundation 2121014005 32 2 1 Courses Materials and (4 credits) 2120064501 Nonlinear Optics 32 2 1

Optical Information 2120064502 32 2 2 Processing

Principle of Photonic 2120064503 32 2 2 Crystals

Principles of Optical Fiber 2120064504 32 2 1 Communication

Laser Safety and 2121016006 16 1 1 Radiation Protection Subject Electives 2121016007 Laser Joining techniques 32 2 2 (10 credits) Laser Cladding and 2121016008 32 2 2 Rapid Prototyping

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Stage Course Classification Course Course Name Credit Credits Semester Code Hours

Technology

2121016009 Fiber Optics 32 2 2

Laser Material 2121016010 32 2 1 Processing Technique

Laser Raman 2121016011 32 2 2 Spectroscopy

Semiconductor Laser 2121016012 32 2 2 Technology

Laser Parameter Test 2121016013 32 2 1 Techniques

2121016014 Biophotonics 32 2 2

Ultrashort Laser Pulse 2120066501 32 2 2 Technology

2120066502 Morden Optical Design 32 2 2

Optical Information 2120066503 32 2 2 Processing Experiments

Holographic Display and 2120066504 32 2 1 Recording Materials

Photoelectric Detection 2120066505 32 2 2 Technology

Optical Fiber

2120066506 Communication 32 2 2

Technology

Digital Signal Processing

2120066507 Technology and 32 2 2

Applications

Wireless Data 2120066508 32 2 2 Communication

Light Holography and 2120066509 32 2 2 Applications

Optical Fiber Sensing 2120066510 32 2 2 Technology

2120066511 All-solid-state Laser 32 2 2 4

Stage Course Classification Course Course Name Credit Credits Semester Code Hours

Technology

Primary Programming

2120066512 Language for Virtual 32 2 1

Instrument

Time-resolving

2120066513 Spectroscopy and 32 2 2

Applications

Engineering English 2120096029 32 2 2 Writing

Retrieval and applications

2122017001 of Scientific and 32 2 1

Technical Literatures

Instructor's Private 2120066500 32 2 1-2 Lessons General Chinese Marxism and Foundation 1120361001 48 3 1 Contemporary Society Courses

1120062100 Mathematical Modelling 54 3 1

Advanced Laser Basic Foundation 1121012001 Manufacturing Science 48 3 1

Courses and Technology ( 6 credits) 1110062501 Photonics 48 3 1 Doctoral 1120062502 Laser Physics 48 3 1 Degree Stage Coureses Special Topics on Optical (12 1121014002 32 2 1 (Required) Engineering Frontiers credits) Optical Information 1120064501 32 2 1 Subject Theory and Technology

Foundation 1120064502 Modern Optical Design 32 2 1 Courses Optical Crystal ( 2 credits) 1120064503 Components and 32 2 1 Applications Photoelectric Information 1120064504 32 2 1 Detection

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Stage Course Classification Course Course Name Credit Credits Semester Code Hours

1120005000 Academic Seminar 1 1—8 Academic Activities International Academic (Required) 1120005001 1 1—8 Communication Notes: For direct doctoral students I and II (please see notes in Section 2), courses consists of two parts: Master level courses and Doctoral level courses. The master level courses should be finished in the first academic year in accordance with the subject of the Educational Plan for Master Degree Program, and the credits should be at least 25 (excluding the credits of academic exchanging activities during the Master study period). The students who are qualified for direct doctoral students I or II do not need to conduct Master level academic activities and Doctoral level first foreign language study. They proceed to do other courses in the third semester in accordance with the subject of Educational Plan for Doctoral Degree Program, and the required credits are at least 37. 5. Arrangements of Doctoral Dissertation (1)Research proposal report for doctoral degree will be performed in the third semester (for direct doctoral student I and II, this will be performed in the 4th semester). Time committed to scientific research and dissertation writing should not be less than three years. Application for oral dissertation defense will be considered after at least two years completion of the research proposal report. (2)Mid-term assessment will be conducted after one year completion of the dissertation proposal. For those who failed to pass the mid-term assessment, under the approval by the college and graduate school, dissertation can be terminated. (3)The doctoral dissertation must be completed independently by graduate students under the supervision of the instructor. The doctoral dissertation should reflect the ability of the doctoral student to master the fundamental theory as well as systematic and in-depth expertise in the area, to work independently and to achieve innovative results. (4)Doctoral students should actively participate in international academic activities, write and publish academic papers, and apply for patents. Doctoral students' research outcomes obtained during the study period should meet the basic requirements for graduation and the degree.

Postgraduates Dissertation Mid-term Dissertation Dissertation defence Classfication Proposal Assessment pre-defence

Third semester Fifth semester 6 months before defence At least 2 years after Doctoral students proposal Direct Doctoral Fourth semester Sixth semester 6 months before defence At least 2 years after students I proposal Direct Doctoral Fourth semester Sixth semester 6 months before defence At least 2 years after students II proposal

6. General Requirements of Publications to Apply for Graduation and the Degree Doctoral students should publish at least 3 journal papers related to the doctoral work (or at least 2 papers officially published and 1 paper with acceptance letter) in the SCIE or EI journals as the first 6

author (or second author if the instructor is the first author), of which one should be written in foreign language and one should be published in SCIE indexed journals.

7. References One first author granted patent (or second author patent if the instructor is the first author) is considered as one EI indexed paper. One provincial level (or above) science and technology award with personal award certificate is considered as one SCIE indexed paper. One first author paper (or second author if the instructor is the first author) published in the 1st class SCI journals will meet the research achievement requirement for graduation and degree. This program should be implemented since 2012.

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