X. Wu, D. Li, W. H. Sun, F. Gao, Z. J. Zhang, and R. W. Peng, “Coupling of terahertz surface plasmon polaritons in corrugated stacks of dielectric and semiconductor,” PIERS Online, Vol. 5, No. 2, pp. 101–104, 2009.
M. Rajarajan, C. Themistos, B. M. A. Rahman, and K. T V Grattan, “Plasmonics in metal-clad terahertz wavegui- des,” PIERS Online, Vol. 3, No. 3, pp. 294–299, 2007.
J. G. Han, X. C. Lu, A. K. Azad, M. F. Gong, and W. L. Zhang, “The role of non-resonant effect in terahertz transmission through subwavelength holes,” PIERS Online, Vol. 4, No. 4, pp. 481–484, 2008.
S. C. Chen, T. M. Chang, and D. P. Tsai, “Focusing the enhanced near-field by manipulating the nano-plasmon-driving intensifiers,” PIERS Online, Vol. 1, No. 4, pp. 445–447, 2005.
I. V. Minin and O.V. Minin, “Diffractional quasioptics,” Moskow: InformTei, pp. 180 (in Russian), 1992. See also: O. V. Minin and I. V. Minin, “Diffraction optics of millimeter waves,” London: IOP Publisher, pp. 396, 2004.
L. Feng., K. Tetz, B. Slutsky, V. Lomakin, and Y. Fainman, “Fourier plasmonics: Diffractive focusing of in-plane surface plasmon polarition waves,” Applied Physics Letters, 91, 081101, 2007.
Schatz G. C. and R. P. van Duyne (Eds.), “Electromagnetic mechanism of surface-enhanced spectroscopy,”
Wiley, New York, 2002.
R. F. Wallis and G. I. Stegeman (Eds.), “Electromagnetic surface excitations,” Springer Series on Wave Phenomena, Springer, Berlin, 1988.
D. B .Ostrowsky and R. Reinisch (Eds.), “Guided wave nonlinear Optics,” Kluwer Academic Publishers, Dordre- cht, 1992.
I. P. Radko, S. I. Bozhevolnyi, A. B. Evlyukhin, and A. Boltasseva, “Surface plasmon polariton beam focusing with parabolic nanoparticle chains,” Opt. Express 15, 6576–6582, 2007.
W. Nomura, M. Ohtsu, and Yatsui T, “Nanodot coupler with a surface plasmon polariton condenser for optical far/bear-field conversion,” Applied Physics Letters, 86, 181108, 2005.
R. Zia and M. L. Brongersma, “Surface plasmon polariton analogue to Young’s double-slit experiment,” Nature Nanotech, 2, pp. 426–429, 2007.
I. V. Minin, O. V. Minin, C. Chen, J. Mititu, and D. W. Prather, “Novel type of the elements of integrated diffractive optics,” Terahertz for Military and Security Applications IV, Novel Terahertz Devices and Concepts III. Proc. SPIE 6212, pp. 17–21, April 2006, Gaylord Palms Resort and Convention Center Orlando (Kissimmee), Florida, USA
I. V. Minin, O. V. Minin, D. Prather, S. Shi, “The potential of flat curvilinear DOE as a key element of future integrated diffractive optics and information protected element,” In Proceeding of the 5th IEEE-Russia Conference “Microwave electronics: measurements, identification, applications,” MEMIA 2005, pp. 13-15, December 2005, Novosibirsk, Russia, pp. 186–193.
Y. Y. Feng and M. Willatzen, “Plasmonic effects in dynamic tunable metal-dielectric composites,” PIERS On- line, Vol. 4, No. 6, pp. 625–630, 2008.
R. Blaikie, L. Lin, and R. Reeves, “Surface-plasmon- enhanced optical transmission through planar metal films,” PIERS Online, Vol. 1, No. 6, pp. 634–637, 2005.
T. Suyama, Y. Okuno, and T. Matsuda, “Plasmon resonance-absorption in a metal grating and its application for refractive-index measurement,” PIERS Online, Vol. 1, No. 6, pp. 659–663, 2005.
P. Wang, X. J. Jiao, L. Tang, D. G. Zhang, Y. H. Lu, J. P. Xie, and M. Hai, “A planar metallic collimator based on controlling surface plasmons's phase,” PIERS Online, Vol. 1, No. 3, pp. 369–371, 2005.