Periodic Materials And Interference Lithography For Photonics Phononics And Mechanics Martin Maldovan Edwin L Thomas by Martin Maldovan; Edwin L Thomas 9783527625390, 9783527625406, 3527625399, 3527625402 instant download after payment.

Cover -- Contents -- Preface -- Introduction -- Theory -- 1 Structural Periodicity -- 1.1 Nonperiodic versus Periodic Structures -- 1.2 Two-dimensional Point Lattices -- 1.3 Three-dimensional Point Lattices -- 1.4 Mathematical Description of Periodic Structures -- 1.5 Fourier Series -- Further Reading -- Problems -- 2 Periodic Functions and Structures -- 2.1 Introduction -- 2.2 Creating Simple Periodic Functions in Two Dimensions -- 2.3 Creating Simple Periodic Functions in Three Dimensions -- 2.4 Combination of Simple Periodic Functions -- Problems -- 3 Interference of Waves and Interference Lithography -- 3.1 Electromagnetic Waves -- 3.2 The Wave Equation -- 3.3 Electromagnetic Plane Waves -- 3.4 The Transverse Character of Electromagnetic Plane Waves -- 3.5 Polarization -- 3.6 Electromagnetic Energy -- 3.7 Interference of Electromagnetic Plane Waves -- 3.8 Interference Lithography -- Further Reading -- Problems -- 4 Periodic Structures and Interference Lithography -- 4.1 The Connection between the Interference of Plane Waves and Fourier Series -- 4.2 Simple Periodic Structures in Two Dimensions Via Interference Lithography -- 4.3 Simple Periodic Structures in Three Dimensions Via Interference Lithography -- Further Reading -- Problems -- Experimental -- 5 Fabrication of Periodic Structures -- 5.1 Introduction -- 5.2 Light Beams -- 5.3 Multiple Gratings and the Registration Challenge -- 5.4 Beam Configuration -- 5.5 Pattern Transfer: Material Platforms and Photoresists -- 5.6 Practical Considerations for Interference Lithography -- 5.7 Closing Remarks -- Further Reading -- Applications -- 6 Photonic Crystals -- 6.1 Introduction -- 6.2 One-dimensional Photonic Crystals -- 6.3 Two-dimensional Photonic Crystals -- 6.4 Three-dimensional Photonic Crystals -- Further Reading -- Problems -- 7 Phononic Crystals -- 7.1 Introduction -- 7.2 Phononic Crystals -- 7.3 One-dimensional Phononic Crystals -- 7.4 Two-dimensional Phononic Crystals -- 7.5 Three-dimensional Phononic Crystals -- Further Reading -- Problems -- 8 Periodic Cellular Solids -- 8.1 Introduction -- 8.2 One-dimensional Hookes Law -- 8.3 The Stress Tensor -- 8.4 The Strain Tensor -- 8.5 StressStrain Relationship: The Generalized Hookes Law -- 8.6 The Generalized Hookes Law in Matrix Notation -- 8.7 The Elastic Constants of Cubic Crystals -- 8.8 Topological Design of Periodic Cellular Solids -- 8.9 Finite Element Program to Calculate Linear Elastic Mechanical Properties -- 8.10 Linear Elastic Mechanical Properties of Periodic Cellular Solids -- 8.11 Twelve-connected Stretch-dominated Periodic Cellular Solids via Interference Lithography -- 8.12 Fabrication of a Simple Cubic Cellular Solid via Interference Lithography -- 8.13 Plastic Deformation of Microframes -- Further Reading -- 9 Further Applications -- 9.1 Controlling the Spontaneous Emission of Light -- 9.2 Localization of Light: Microcavities and Waveguides -- 9.3 Simultaneous Localization of Light and Sound in PhotonicPhononic Crystals: Novel AcousticOptical Devices -- 9.4 Negative Refraction and Superlenses -- 9.5 Multifunctional Periodic Structures: Maximum Transport of Heat and Electricity -- 9.6 Microfluidics -- 9.7 Thermoelectric Energy -- Further Reading -- Appendix A MATLAB Program