课程大纲

COURSE SYLLABUS

课程代码/名称

Course Code/Title

Photonic materials and matematerials/光学材料与超构材料 MSE5019

课程性质

Compulsory/Elective

专业选修课 (Specialty Elective Course)

课程学分/学时

Course Credit/Hours

3 学分/48 学时

授课语言

Teaching Language

English

授课教师

Instructor(s)

李贵新

是否面向本科生开放

Open to undergraduates

or not

是

先修要求

Pre-requisites

本科生：至少需修过 PHY103B 大学物理（上）B、PHY105B 大学物理

（下）B；如果有修读过 PHY103A 大学物理（上）A、PHY105A 大学物

理（下）A 或其他更高层次的课程也可以。

研究生：无

教学目标

Course Objectives

This is an introduction into advanced topics in propagation of electromagnetic waves in a medium and

interaction of electromagnetic waves with matter. Topics cover includes derivation of optical

constants such as susceptibility and dielectric constants, photonic crystals, plasmonics and

metamaterials.

课程意义：

有助于学生了解光在材料中的传播机制，以及掌握利用光子晶体、等离激元共振、超构材料等人工微纳结构调控光传

播的基础知识与技术。

教学方法

Teaching Methods

Lectures and tutorials; 讲授和习题/辅导/讨论

10.

教学内容

Course Contents

Section 1

I. The Propagation of Light (Weeks: 1-3)

1.1 Introduction to Electromagnetism

Section 2

1.2 Maxwell’s Equations

Section 3

1.3 Materials Equations

Section 4

1.4 Wave Equations

Section 5

1.5 Basic Properties of Electromagnetic Wave

Section 6

1.6 Optical Constants of Materials

Section 7

II. Polarization, Interference and Diffraction of Light (Weeks: 4-7)

2.1 Polarized Light

Section 8

2.2 Jones Vector and Matrix

Section 9

2.3 Fresnel Equations

Section 10

2.4 Coherence and Interference of Light

Section 11

2.5 Diffraction of Light

Section 12

2.6 Propagation of Light in Crystals

Section 13

2.7 Nonlinear Optics

Section 14

III. Photonic Crystals (Weeks: 8-11)

3.1 One Dimensional Photonic crystals

Section 15

3.2 Two Dimensional Photonic crystals

Section 16

3.3 Three Dimensional Photonic Crystals

Section 17

3.4 Fabrication of Photonic Crystals

Section 18

3.5 Applications of Photonic Crystals

Section 19

IV. Plasmonics and Photonic Metamaterials (Weeks: 12-16)

4.1 Localized and Surface Plasmon Resonances.

Section 20

4.2 Photonic Metamaterials

Section 21

4.3 Photonic Metasurfaces

Section 22

4.4 Fabrication of Metamaterials and Metasurfaces

Section 23

4.5 Applications of Plasmonic and Metamaterial devices.

11.

课程考核

Course Assessment

Quiz/attendance: 10%

Homework: 35%

Project and presentation: 55%

12.

教材及其它参考资料

Textbook and Supplementary Readings

1.Introduction to Modern Optics, Grant R. Fowles.

2.Optical Metamaterials: Fundamentals and Applications, Cai Wenshan, Shalaev Vladimir.