[1] Armenise MN, Campanella CE, Ciminelli C, Dell’Olio F, Passaro VM. Phononic and photonic band gap structures: modelling and applications. Physics Procedia. 2010 Jan 1; 3(1):357-64.
[2] Naumov AN, Zheltikov AM. Ternary one-dimensional photonic band-gap structures: dispersion relation, extended phase-matching abilities, and attosecond outlook. Laser physics. 2001; 11(7):879-84.
[3] Ozbay E, Bulu I, Aydin K, Caglayan H, Guven K. Physics and applications of photonic crystals. Photonics and Nanostructures-Fundamentals and Applications. 2004 Oct 1; 2(2): 87-95.
[4] Ren X, Otsuka K. Universal symmetry property of point defects in crystals. Physical review letters. 2000 Jul 31; 85(5):1016.
[5] Agio M, Soukoulis CM. Ministop bands in single-defect photonic crystal waveguides. Physical Review E. 2001 Oct 26; 64(5):055603.
[6] Monzon J. J, Yonte T, Sanchez-Soto L. L," Characterizing the Reflectance of Periodic Layered Media," Optics Communications, Vol. 218, 2003
[7] Ouchani N, Bria D, Nougaoui A, Djafari-Rouhani B. Photonic band structure and omnidirectional band gap in anisotropic superlattice. Solar energy materials and solar cells. 2006 Jun 15; 90(10):1445-57.
[8] Bananej A, Hamidi SM, Li W, Li C, Tehranchi MM. A flexible design for one-dimensional photonic crystals with controllable photonic bandgap width. Optical Materials. 2008 Aug 1; 30 (12): 1822-7.
[9] Johnson SG, Joannopoulos JD. Designing synthetic optical media: photonic crystals. Acta materialia. 2003 Nov 25; 51(19):5823-35.
[10] Panoiu NC, Osgood Jr RM, Zhang S, Brueck SR. Zero-n bandgap in photonic crystal superlattices. JOSA B. 2006 Mar 1; 23(3):506-13.
[11] Srivastava R, Thapa KB, Pati S, Ojha SP. Omni-direction reflection in one dimensional photonic crystal. Progress in Electromagnetics Research. 2008; 7: 133-43.
[12] Gharaati A, Mohamadebrahimi L, Roozitalab Z. Photonic band gap in negative ternary refractive indices of two-dimensional photonic crystal. Optica Applicata. 2014; 44(4).
[13] Gharaati A, Ebrahimzadeh M. Enhanced Microwave Absorption Properties of FeCo@ TiO2 Core-Shell Nanoparticles. Current Nanoscience. 2019 Apr 1; 15(2):163-8.
[14] Kurt H. Photonic crystals: Analysis, design and biochemical sensing applications (Doctoral dissertation, Georgia Institute of Technology).2006.
[15] Yeh P, Yariv A, Hong CS. Electromagnetic propagation in periodic stratified media. I. General theory. JOSA. 1977 Apr 1; 67(4):423-38.
[16] Sukhoivanov IA, Guryev IV. Photonic crystals: physics and practical modeling. Springer; 2009 Sep 21.
[17] Wu CJ, Wang ZH. Properties of defect modes in one-dimensional photonic crystals. Progress in Electromagnetics Research. 2010; 103: 169-84.
[18] Ghaforyan H, Ebrahimzadeh M, Ghaffary T, Rezazadeh H, Jahromi ZS. Microwave absorbing properties of Ni nanowires grown in nanoporous anodic alumina templates. Chinese Journal of Physics. 2014 Feb 1; 52(1):233-8.
[19] Chen XF, Shen XM, Jiang MP, Shi DF. Properties of defect mode and optical enhancement of 1D photonic crystals with a defect layer of negative refractive index material. Optoelectronics Letters. 2005 Nov 1; 1(3):198-200.
[20] Özbay E, Tuttle G, Sigalas M, Soukoulis CM, Ho KM. Defect structures in a layer-by-layer photonic band-gap crystal. Physical Review B. 1995 May 15; 51(20):13961.
[21] Fedele F, Yang J, Chen Z. Defect modes in one-dimensional photonic lattices. Optics letters. 2005 Jun 15; 30 (12): 1506-8.
[22] Matthews AF, Mingaleev SF, Kivshar YS. Bandgap engineering and defect modes in photonic crystals with rotated hexagonal holes. arXiv preprint physics/0311018. 2003 Nov 5.
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