References
- Jeen D. Radar and laser cross section engineering. 2nd ed. Washington: American Institute of Aeronautics and Astronautics, Inc; 1995.
- Vinoy KJ. Radar absorbing materials from theory to design and characterization. 1st ed. Boston (MA): Kluwer Academic Publisher; 1996.10.1007/978-1-4613-0473-9
- Bradshaw PS. Signature management and structural materials, material and processing – move to the 90’s. Amsterdam: Proceedings of SAMPE; 1989. p. 187–196.
- Mittra R, Chan CH, Cwik T. Techniques for analyzing frequency selective surfaces – a review. Proc IEEE. 1988;76(12):1593–1615.10.1109/5.16352
- Grounds PW, Webb kJ. Numerical analysis of finite frequency selective surface with rectangular patches of various aspect ratios. IEEE Trans Antenn Propag. 1991;39:569–575.10.1109/8.81482
- Wu TK. Frequency selective surface and grid array. 1st ed. New York (NY): Wiley; 1995.
- Monacelli B, Pryor JB, Munk BA, et al. Infrared frequency selective surface based on circuit-analog square loop design. IEEE Trans Antenn Propag. 2005;53(2):745–752.10.1109/TAP.2004.841290
- Kim PC, Chin WS, Lee DG, et al. EM characteristics of the RAS composed of E-glass/epoxy composite and single dipole FSS element. Compos Struct. 2006;75:601–609.10.1016/j.compstruct.2006.04.085
- Kim PC, Lee DG. Improvement of bonding characteristics between the frequency selective surface and E-glass/epoxy composites for stealth radomes. J Adhes Sci Technol. 2009;23:215–227.10.1163/156856108X369570
- Cho DH, Lee DG. Optimum design of co-cured steel – composite tubular single lap joints under axial load. J Adhes Sci Technol. 2000;14:939–963.10.1163/156856100742997
- Seo IS, Kim JK, Choi I, et al. The effects of bonding characteristics of FSS in hybrid structure. Jeju: The Korea Institute of Military Science and Technology; 2010. p. 581–584.
- Munk BA. Frequency selective surfaces. New York (NY): Wiley; 2000.10.1002/0471723770
- Lee KW, Hong IP, Cho CM, et al. Design of frequency selective surface with PSO. Jeju: KIMST; 2010.