References
- Tamir, T., Ed. Integrated Optics; Springer: New York, 1979.
- Hunsperger, R.G. Integrated Optics: Theory and Technology; Springer: Berlin, 1985.
- Tamir, T., Ed. Guided- Wave Optoelectronics; Springer: New York, 1990.
- Syms, R.R.A.; Cozens, J.R. Optical Guided Waves and Devices; McGraw-Hill: 1992.
- Yeh, C.; Shimabukuro, F. The Essence of Dielectric Waveguides; Springer: New York, 2008.
- Balanis, C.A. Advanced Engineering Electromagnetics; Wiley: New York, 1989.
- Carson, J.R.; Mead, S.P.; Schelkunoff, S.A. Bell Syst. Tech. J. 1936, 15, 310.
- Chew, W.C. Waves and Fields in Inhomogeneous Media; Von Nostrand Reinhold: New York, 1990.
- Collin, R.E. Field Theory of Guided Waves; IEEE Press: New York, 1990.
- Marcuze, D.. Theory of dielectric optical waveguides; Academic Press: New York, 1974.
- Zayats, A.V.; Smolyaninov, I.I.; Maradudin, A.A. Phys. Rep. 2005, 408 (3–4), 131–314.
- Radożycki, T.; Bargieła, P. J. Mod. Opt. 2018, 65, 1404.
- Raether, H. Surface Plasmons on Smooth and Rough Surfaces and on Gratings, Springer Tracts Mod. Phys. 111; Springer: Berlin, 1988.
- Drude, P. Ann Physik. 1900, 306, 566; 1900, 308, 369.
- Sommerfeld, A. Z. Phys 1928, A 47, 1.
- Ashcroft, N.W.; Mermin, N.D. Solid State Physics; Saunders College Publishing: Philadelphia, PA, 1976.
- Novotny, L.; Hecht, B. Principles of Nano-Optics; Cambridge University Press: Cambridge, 2012.
- Vendik, I.B.em et al. Tech. Phys. 2016, 61, 1765.
- Hillion, P. Pure Appl. Opt. 1992, 1 (3), 169–180
- Lapidus, I.R. Am. J. Phys. 1982, 50, 155.
- Zwiebach, B. A First Course in String Theory; Cambridge University Press: Cambridge, 2009.
- van Kampen, N.G.; Lodder, J.J. Am. J. Phys. 1984, 52 (5), 419–424
- Deschamps, A. In Mathematics Applied to Physics; E. Roubine, Ed.; Springer: Berlin 1970; Chapter III.
- Warnick, K.F.; Russer, P. Prog. Electromagn. Res. 2014, 148, 83–112.
- Willatzen, M. Phys. Rev. 2009, A 80, 043805.
- Fu, Y. Subwavelength Optics: Theory and Technology, Bentham Science Publishers: Sharjah; 2010.