Abstract
The paper is devoted to application of the waveguide method in mathematical modeling of multilayered radar absorbing coating. Mathematically, it leads to a synthesis problem. We present a numerical-analytical method for solution of this problem and show computational results which can be applied in design of multilayered coatings.
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References
Y.G. Smirnov, Y.V. Shestopalov, E.D. Derevyanchuk, Permittivity reconstruction of layered dielectrics in a rectangular waveguide from the transmission coefficient at different frequencies, in Inverse Problems and Large-Scale Computations, vol. 52, ed. by L. Beilina, Y. Shestopalov. Series: Springer Proceedings in Mathematics and Statistics (Springer, 2013), pp. 169–181
Y.G. Smirnov, Y.V. Shestopalov, E.D. Derevyanchuk, Permittivity determination of multi-sectional diaphragm with metamaterial layers in rectangular waveguide, in Proceedings of Progress in Electromagnetics Research Symposium (Taipei, 2013), pp. 135–139
Y.G Smirnov, Y.V Shestopalov, E.D. Derevyanchuk, Reconstruction of permittivity and permeability tensors of anisotropic materials in a rectangular waveguide from the reflection and transmission coefficients at different frequencies, in Proceedings of Progress in Electromagnetics Research Symposium (Stockholm, Sweden, 2013), pp. 290–295
Y.G Smirnov, Y.V Shestopalov, V.V. Yakovlev, Volume singular integral equations method for determination of effective permittivity of meta- and nanomaterials, in Proceedings of Progress in Electromagnetics Research Symposium (Cambridge, USA, 2008), pp. 291–292
L. Solymar, E. Shamonina, Waves in Metamaterials (Oxford University Press Inc., New York, 2009)
D.A. Usanov, A.V. Skripal, A.V. Abramov, A.S. Bogolyubov, Determination of the metal nanometer layer thicknesss and semiconductor conductivity in metal-semiconductor structures from electromagnetic reflection and transmission spectra. Tech. Phys. 51(5), 644–649 (2006)
A.V. Tikhonravov, M.K. Trubetskov, U. Keller, N. Matuschek, Designing of coatings for femtosecond lasers with phase derivatives targets, in Advances in Optical Interference Coatings, ed. C. Amra, A. Macleod, vol. 3738 (1999), pp. 221–229 (Proceedings of SPIE)
A.V. Tikhonravov, J.A. Dobrowolski, Quasi-optimal synthesis for antireflection coatings: a new method. Appl. Opt. 32(22), 4265–4275 (1993)
V.B. Glasko, A.N. Tikhonov, A.V. Tikhonravov, The synthesis of multilayer coatings. USSR Comput. Math. Math. Phys. 14(1), 135–143 (1974). https://doi.org/10.1016/0041-5553(74)90142-6
Acknowledgements
This study is supported by the Ministry of Education and Science of the Russian Federation, Project No. 1.894.2017/4.6 and by the grant of President, Project No. MK-3604.2018.1.
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Derevyanchuk, E.D., Shutkov, A.S., Smirnov, Y.G. (2018). Synthesis Problem and Mathematical Modeling of Multilayered Absorbing Coating. In: Beilina, L., Smirnov, Y. (eds) Nonlinear and Inverse Problems in Electromagnetics. PIERS PIERS 2017 2017. Springer Proceedings in Mathematics & Statistics, vol 243. Springer, Cham. https://doi.org/10.1007/978-3-319-94060-1_2
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DOI: https://doi.org/10.1007/978-3-319-94060-1_2
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