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Journal of Electromagnetic Waves and Applications Volume 27, 2013 - Issue 2
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Articles

Characterization and performance evaluation of radar absorbing materials

S. PadhyProof & Experimental Establishment, Defence Research & Development Organization, , Chandipur, Balasore, Odisha, India
,
S. SanyalDepartment of Electronics and Electrical Communication Engineering, Indian Institute of Technology, Kharagpur, India
,
R.S. MeenaDepartment of Electronics, UCE, Rajasthan Technical University, Kota, India
,
R. ChatterjeeDepartment of Physics, Indian Institute of Technology, Delhi, India
&
A. BoseProof & Experimental Establishment, Defence Research & Development Organization, , Chandipur, Balasore, Odisha, India
Pages 191-204 | Received 24 Jul 2012, Accepted 25 Sep 2012, Published online: 12 Nov 2012

References

  • Hasar, UC, 2010. Unique permittivity determination of low-loss dielectric materials from transmission measurements at microwave frequencies, Prog. Electromagn. Res. 107 (2010), pp. 31–46.
  • Addamo, G, Virone, G, Vaccaneo, D, Tascone, R, Peverini, OA, and Orta, R, 2010. An adaptive cavity setup for accurate measurements of complex dielectric permittivity, Prog. Electromagn. Res. 105 (2010), pp. 141–155.
  • Zhou, Y, Li, E, Guo, G, Gao, Y, and Yang, T, 2011. Broadband complex permittivity measurement of low loss materials over large temperature ranges by stripline resonator cavity using segmentation calculation method, Prog. Electromagn. Res. 113 (2011), pp. 143–160.
  • Oraizi, H, Abdolali, A, and Vaseghi, N, 2010. Application of double zero metamaterials as radar absorbing materials for the reduction of radar cross section, Prog. Electromagn. Res. 101 (2010), pp. 323–337.
  • Mohammed NA, Lisiak D, Bahadoor A, Wang Y. Microwave ferromagnetic resonance of cobalt and nickel substituted U type hexaferrites. IEEE Trans. Magn. 2005;41:3472–3474..
  • Oraizi, H, and Abdolali, A, 2008. Design and optimization of planar multilayer antireflection metamaterial coating at KU band under circularly polarized oblique plane wave incidence, Prog. Electromagn. Res. C. 3 (2008), pp. 1–18.
  • Lubitz P, Rachford FJ. Z type Ba hexagonal ferrites with tailored microwave properties. J. Appl. Phys. 2002;91:7613..
  • Naito Y, Suetake K. Application of ferrite to electromagnetic wave absorber and its characteristics. IEEE Trans. Microwave Theory Techn. 1971;19:65–72..
  • Lisjak, D, and Drofenik, M, 2004. The thermal stability range and magnetic properties of U-type hexaferrites, J. Magn. Magn. Mater. 272–276 (2004), pp. e1817–e1819.
  • Dimri MC, Kashyap SC, Dube DC. Complex permittivity & permeability of Co2U(Ba4Co2Fe36O60) hexa ferrite bulk and composite thick films at radia and microwave. IEEE Trans. Magn. 2006;42:3635–3640..
  • Meena RS, Bhattachrya S, Chatterjee R. Development of tuned microwave absorber using U type Hexaferrite. Mater. Des. 2010;31:3220–3226..
  • http://www.abrorganics.com/products.html..
  • Naishadham K, Kadaba PK. Measurement of the microwave conductivity of a polymeric material with potential applications in absorbers and shieldin. IEEE Trans. MTTS. 1991;39:1158–1164..
  • Nicolson, AM, and Ross, GF, 1970. Measurement of intrinsic properties of the materials by time domain techniques, IEEE Trans. Instr. Measure. 19 (1970), pp. 377–382.
  • http:www.cst.com/Content/Products/MWS/IntegralEquationS-olver.aspx..
  • Song J, Lu C-C, Chew WC. Multilevel fast multipole algorithim for electromagnetic scattering by large complex objects. IEEE Trans. Antennas Propagat. 1997;45:1488–1493..
  • Knott EF, Schaeffer JF, Tuley M. Radar cross section. 2nd ed. Boston, London: Artech House; 1993..
  • Chen, Q, Huang, K-M, Yang, X, Luo, M, and Zhu, H, 2011. An artificial nerve network realization in the measurement of material permittivity, Prog. Electromagn. Res. 116 (2011), pp. 347–361.
  • Lim KM, Kim MC, Lee KA, Park CG. Electromagnetic wave absorption properties of amorphous alloy-ferrite-epoxy composite in quasi-microwave band. IEEE Trans. Magn. 2003;39:1836–1841..
  • Lisjak, D, Bregar, VB, and Drofenik, M, 2007. The influence of microstructure on microwave absorption of Co-U hexaferrties, J. Magn. Magn. Mater. 310 (2007), pp. 2558–2560.

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