第一个书签之前
Abstract
摘 要
Table of contents
Chapter
Chapter 1 Introduction
1.1 Research background and significance
1.2 Recent research in near-field radiative heat transfer
1.3 Outline
Chapter 2 Fundamentals and Theoretical Background of Near Field Radiative Heat Transfer
2.1 Electromagnetic surface waves
2.1.1 Surface plasmon and phonon polariton
2.1.2 Evanescent wave
2.2 Fluctuation dissipation theory
2.3 Maxwell’s equations and dyadic Green’s function
2.4 Dielectric function model
2.4.1 Drude model for metals and semiconductors
2.4.2 Lorentz model for dielectrics
2.5 Summary
Chapter 3 Near Field Radiative Heat Transfer Between Parallel Plates with Flat Surface
3.1 Local density of electromagnetic states
3.2 Near-field radiation between two semi-infinite media
3.2.1 Influence of temperature and gap distance between the plates in NFRHT
3.2.2 Propagation and evanescent wave in radiative heat transfer
3.3 Radiative heat transfer coefficients of parallel plate systems
3.4 Anisotropic optics in thin films
3.5 Validation of proposed method
3.5.1 Three layer Structure: Air/SiNWs/Si Substrate
3.5.2 Four layer structure: Air/D-SiNWs/Si Substrate/Air
3.5.3 Hyperbolic metamaterials
3.5.3.1 Near field radiative heat transfer between anisotropic multilayer metamaterial
3.6 Anisotropic multi-layer coupling
3.6.1 Characteristics of anisotropic multi-layer structure
3.7 Summary
Chapter 4 Near Field Radiative Heat Transfer Between Parallel Plates with Rough Surface
4.1 Effective medium theory
4.2 Geometry of random rough surface
4.3 Characteristics of radiative heat transfer with rough surface
4.3.1 Convergence test for anisotropic multilayer structure
4.3.2 LDOS of flat and rough surface material
4.3.3 Near field radiative heat transfer between different surface material
4.3.4 Radiative heat transfer as a function of vacuum gap for different surface
4.3 Summary
Conclusion
结 论
References
哈尔滨工业大学学位论文原创性声明及使用授权说明
Acknowledgement
