Table of Contents
INTRODUCTION vii
CHAPTER 1. Two-Dimensional Dielectric Photonic Crystals 1
1.1. Context 1
1.2. Concepts: photonic band structures and equi-frequency curves 2
1.2.1. Basic concepts on electromagnetic waves in 2D PhCs 3
1.2.2. Dispersion surfaces, equi-frequency curves and group velocity 6
1.3. Fundamental dispersion effects 8
1.3.1. The construction line method 8
1.3.2. A beam propagation model 9
1.3.3. The self-collimation effect 12
1.3.4. Mesoscopic self-collimation of light 14
1.3.5. The superprism effect 18
1.3.6. Negative refraction and -1 effective index in photonic crystals and metamaterials 20
1.4. From concepts to reality 26
1.4.1. 2D½ prototype design 27
1.4.2. Thick substrate versus membrane approach 27
1.4.3. 2D patterning and prototype designs 29
1.4.4. The 3D reality 34
1.5. Conclusion 35
CHAPTER 2. Flat Lenses 37
2.1. Context 37
2.2. Negative refraction based flat lenses 38
2.2.1. Effective parameters 38
2.2.2. A 2D photonic crystal based flat lens: dimensioning 42
2.2.3. Experiments 51
2.3. Gradient index lenses 56
2.3.1. GRIN lens concept 56
2.3.2. Negative index based GRIN lens (the hole case) 57
2.3.3. Positive index based GRIN lens (the pillar case) 59
2.3.4. Experimental evaluation of GRIN lenses 60
2.4. Conclusion 62
CHAPTER 3. Towards Transform Optics Based Devices 63
3.1. Context 63
3.2. From transform Optics to Hamiltonian optics 64
3.2.1. Transform Optics 64
3.2.2. Conformal mapping 69
3.2.3. Hamiltonian optics 70
3.3. 1D graded photonic crystals 72
3.3.1. D graded photonic crystals 75
3.4. Cloaking devices 78
3.4.1. A brief overview of optical cloaking 79
3.4.2. A III-V based photonic crystal carpet: design and fabrication 81
3.4.3. A III-V based photonic crystal carpet: evaluation and discussion 83
3.5. Conclusion 85
CONCLUSION 87
BIBLIOGRAPHY 91
INDEX 105