《光子晶体的光学性质(第2版)》第一部全面讲述光子晶体的光学性质的教程。书中不仅呈现了晶体内部放射模型的性质，而且给出了它们对内部场的特别的光学反应，运用格林函数方法详尽地给出了线性和非线性的光学反应综述。书中用群论系统描述了特征对称，及其对光子晶体的光学性质的影响，详尽、简明地介绍了最新成果，如受激辐射、二次谐波、正交位相压缩和低阀值激光。数值方法的重点强调使得本书不仅适合于研究生和本科生，也是该领域科研人员的不可多得的一本参考书。本书由K.迫田著。

1.Introduction

2.Eigenmodes of Photonic Crystals

2.1Wave Equations and Eigenvalue Problems

2.2Eigenvalue Problems in Two-Dimensional Crystals

2.3Scaling Law and Time R:eversal Symmetry

2.4 Photonic Band Calculation

2.4.1 Fourier Expansion of Dielectric Functions

2.4.2 Some Examples

2.5 Phase Velocity, Group Velocity, and Energy Velocity

2.6 Calculation of Group Velocity

2.7 Complete Set of Eigenfunctions

2.8 Retarded Green's Function

3. Symmetry of Eigenmodes

3.1 Group Theory for Two-Dimensional Crystals

3.2 Classification of Eigenmodes in the Square Lattice

3.3 Classification of Eigenmodes in the Hexagonal Lattice

3.4 Group Theory for Three-Dimensional Crystals

3.5 Classification of Eigenmodes in the Simple Cubic Lattice

3.6 Classification of Eigenmodes in the fcc Lattice

4.Transmission Spectra

4.1 Light Transmission and Bragg Reflection

4.2 Field Equations

4.2.1 E Polarization

4.2.2 H Polarization

4.3 Fourier Transform of the Dielectric Function

4.3.1 Square Lattice

4.3.2 Hexagonal Lattice

4.4 Some Examples

4.4.1 Square Lattice

4.4.2 Hexagonal Lattice

4.5 Refraction Law for Photonic Crystals

……

5.Optical R,esponse of Photonic Crystals

6.Defect Modes in Photonic Crystals

7.Band Calculationwith Frequency-Dependent Dielectric Constants

8.Photonic Crystal Slabs

9.Low-Threshold Lasing Due to Group-Velocity Anomaly

10.Quantum Optics in Photonic Crystals

11.Superfiuorescence

12.Epilogue

References

Index