[1] Celozzi S, Araneo R, Lovat G. Electromagic shielding[M]. Hoboken: John Wiley Sons, 2008.
[2] Paul C R. Introduction to electromagic compatibility[M]. Hoboken: John Wiley Sons, 2006.
[8] Flintoft I D, Parker S L, Bale S J. Measured average absorption cross-sections of printed circuit boards from 2 to 20 GHz[J]. IEEE Transactions on Electromagnetic Compatibility, 58, 553-560(2016).
[10] Aghabarati A, Moini R, Fortin S, et al. Electromagnetic shielding analysis of spherical polyhedral structures generated by conducting wires and metallic surfaces[J]. IEEE Transactions on Electromagnetic Compatibility, 59, 1285-1293(2017).
[11] Sampath S S, Sivasamy R, Kumar K J J. A novel miniaturized polarization independent band-stop frequency selective surface[J]. IEEE Transactions on Electromagnetic Compatibility, 61, 1678-1681(2019).
[12] Li Da, Li Tianwu, Zhang Yaojiang, et al. A 2.5-D angularly stable frequency selective surface using via-based structure for 5G EMI shielding[J]. IEEE Transactions on Electromagnetic Compatibility, 60, 768-775(2018).
[13] Sivasamy R, Murugasamy L, Kanagasabai M, et al. A low-profile paper substrate-based dual-band FSS for GSM shielding[J]. IEEE Transactions on Electromagnetic Compatibility, 58, 611-614(2016).
[15] Celozzi S. New figures of merit for the characterization of the performance of shielding enclosures[J]. IEEE Transactions on Electromagnetic Compatibility, 46, 142(2004).
[16] Hill D A, Ma M T, Ondrejka A R, et al. Aperture excitation of electrically large, lossy cavities[J]. IEEE Transactions on Electromagnetic Compatibility, 36, 169-178(1994).