參考文獻 |
[1] E. Yablonovitch, ”Inhibited Spontaneous Emission in Solid-State Physics and Electronics,” Physical Review Letters, 58, 2059-2062 (1987).
[2] S. John, ”Strong localization of photons in certain disordered dielectric superlattices,” Physical Review Letters, 58, 2486-2489 (1987).
[3] E. Yablonovitch, ”Photonic Crystals: Semiconductors of Light,” Scientific American, 285, 47-51, 54 (2002).
[4] K. Sakoda, Optical Properties of Photonic Crystals, 2nd Ed., Springer Berlin Heidelberg (2004).
[5] I. Sukhoivanov and I. Guryev, Photonic Crystals, Physics and Practical Modeling, 2010th Ed., Springer (2009).
[6] C. Kittel, Introduction to Solid State Physics, 8th Ed., Wiley, New York (1986).
[7] K. Yee, ”Numerical Solution of Initial Boundary Value Problem Involving Maxwell′s Equations in Isotropic Media,” IEEE Trans. Antennas and Propagation, 14, 302-307 (1966).
[8] A. Taflove, Computation Electrodynamics—The Finite-Difference Time-Domain Method, 3rd Ed., Artech House (1995).
[9] A. Elsherbeni and V. Demir, The finite-difference time-domain method for electromagnetics with MATLAB® simulations, 2nd Ed., Scitech Publishing (2016).
[10] 馬雲鵬、姬金祖、張生俊、黃沛霖、劉戰合,時域有限差分法(基於MATLAB)。西安電子科技大學出版社 (2018)。
[11] 林振華,電磁場與天線分析-使用時域有限差分法(FDTD)。全華圖書公司(1999)。
[12] J. Berenger, ”A Perfect Matched Layer for the Absorption of Electromagnetic Waves,” Journal of Computational Physics, 114, 185-200 (1994).
[13] Z. Sacks, D. Kingsland, R. Lee, and J.-F. Lee, ”A Perfectly Matched Anisotropic Absorber for Use as an Absorbing Boundary Condition,” IEEE Trans. Antennas and Propagation, 43, 1460-1463 (1996).
[14] W. C. Chew and W. Weedon, ”A 3-D Perfectly Matched Medium From Modified Maxwell′s Equations with Stretched Coordinates,” Microwave and Optical Technology Letters, 7, 599-604 (1994).
[15] J. P. Berenger, ”Perfectly Matched Layer for the FDTD Solution of Wave-Structure Interaction Problems,” IEEE Trans. Antennas and Propagation, 44, 110-117 (1996).
[16] R. Courant, F. K.O, and H. Lewy, ”On the Partial Difference Equations of Mathematical Physics,” IBM Journal of Research and Development, 11, 215-234 (1967).
[17] R. J. Luebbers, F. Hunsberger, and K. S. Kunz, ”A frequency-dependent finite-difference time-domain formulation for transient propagation in plasma,” IEEE Trans. Antennas and Propagation, 39, 29-34 (1991).
[18] O. Ramadan, ”General ADE formulations of SC-PM for modelling multi-term dispersive FDTD applications,” Electronics Letters, 47, 1122-1124 (2011).
[19] D. M. Sullivan, ”Frequency-dependent FDTD methods using Z transforms,” IEEE Trans. Antennas and Propagation, 40, 1223-1230 (1992).
[20] 葛德彪、閆玉波,電磁波時域有限差分方法。西安電子科技大學出版 (2011)。
[21] L. Bo, J. Lin, and G. Ben-Qing, ”A novel solution for magnetized plasma simulation using the FDTD method,” IEEE Trans. Antennas and Propagation, 2, 106-109 (2005).
[22] S. Huang and F. Li, ”Finite-difference time-domain simulation of electromagnetic propagation in magnetized plasma,” Computer Physics Communications, 166, 45-52 (2005).
[23] X.-y. Huang, C.-m. Tong, and L.-x. Ma, ”Improved (FD)2TD formulations based on Z transform for anisotropic plasma,” Proceedings of the 2010 IEEE International Conference on Progress in Informatics and Computing, 2, 1170-1173 (2010).
[24] M. Qiu and S. He, ”A nonorthogonal finite-difference time-domain method for computing the band structure of a two-dimensional photonic crystal with dielectric and metallic inclusions,” Journal of Applied Physics, 87, 8268-8275 (2000).
[25] A. Singh and P. Jain, ”FDTD Analysis of the Dispersion Characteristics of the Metal PBG Structures,” Progress In Electromagnetics Research B, 39, 71-88 (2012).
[26] C. Chan, Q. Yu, and K. Ho, ”Order-N Spectral Method for Electromagnetic Waves,” Physical review. B, Condensed matter, 51, 16635-16642 (1995).
[27] J. B. Pendry, ”Negative Refraction Makes a Perfect Lens,” Physical review letters, 85, 3966-3969 (2000).
[28] C. Luo, S. G. Johnson, J. D. Joannopoulos, and J. B. Pendry, ”All-angle negative refraction without negative effective index,” Physical Review B - Condensed Matter and Materials Physics, 65, 2011041-2011044 (2002).
[29] 欒丕綱、陳啟昌,光子晶體:從蝴蝶翅膀到奈米光子學. 五南圖書出版股份有限公司 (2010).
[30] H.-T. Chien, H.-T. Tang, C.-H. Kuo, C. L. Chen, and Z. Ye, ”Directed diffraction without negative refraction,” Physical Review B, 70, 11-15 (2003).
[31] C. Luo, S. Johnson, J. Joannopoulos, and J. Pendry, ”Negative refraction without negative index in metallic photonic crystals,” Optics express, 11, 746-754 (2003).
[32] P.-G. Luan and K.-D. Chang, ”Photonic-crystal Lens Coupler Using Negative Refraction,” Piers Online, 3, 91-95 (2007).
[33] P.-G. Luan and K.-D. Chang, ”Superlensing effect without obvious negative refraction,” Journal of Nanophotonics, 1, 013518 (2007). |