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This article is cited in 1 scientific paper (total in 1 paper)
Research Papers
Scattering of a surface wave in a polygonal domain with impedance boundary
M. A. Lyalinova, N. Y. Zhub a St. Petersburg University, 7/9 Universitetskaya nab., 199034, St. Petersburg, Russia
b Institute of Radio Frequency Technology, University of Stuttgart, Pfaffenwaldring 47, D-70550, Stuttgart, Germany
Abstract:
The two-dimensional (2D) domain under study is bounded from below by two semi-infinite and, between them, two finite straight lines; on each of the straight lines (segments), a usually different impedance boundary condition is imposed. An incident surface wave, propagating from infinity along one semi-infinite segment of the polygonal domain, excites outgoing surface waves both on the same segment (a reflected wave) and on the second semi-infinite segment (a transmitted wave); in addition, a circular (cylindrical) outgoing wave will be generated in the far field. The scattered wave field satisfies the Helmholtz equation and the Robin (in other words, impedance) boundary conditions as well as some special integral form of the Sommerfeld radiation conditions. It is shown that a classical solution of the problem is unique. By the use of some known extension of the Sommerfeld–Malyuzhinets technique, the problem is reduced to functional Malyuzhinets equations and then to a system of integral equations of the second kind with the integral operator depending on a characteristic parameter. The Fredholm property of the equations is established, which also leads to the existence of the solution for noncharacteristic values of the parameter. From the Sommerfeld integral representation of the solution, the far-field asymptotics is developed. Numerical results for the scattering diagram are also presented.
Keywords:
surface waves, impedance boundary of a polygon, functional equations, Fredholm integral equation, far-field asymptotics, numerical solution.
Received: 04.09.2020
Citation:
M. A. Lyalinov, N. Y. Zhu, “Scattering of a surface wave in a polygonal domain with impedance boundary”, Algebra i Analiz, 33:2 (2021), 98–135; St. Petersburg Math. J., 33:2 (2022), 255–282
Linking options:
https://www.mathnet.ru/eng/aa1750 https://www.mathnet.ru/eng/aa/v33/i2/p98
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