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Waves in Random Media Volume 4, 1994 - Issue 3
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Original Articles

A reciprocal phase-perturbation theory for rough-surface scattering

Rosa M Fitzgerald Department of Physics and Institute for Surface and Interface Science, Univenity of California, Irvine, CA, 92717, USA
&
Alexei A Maradudin Department of Physics and Institute for Surface and Interface Science, Univenity of California, Irvine, CA, 92717, USA
Pages 275-296 | Received 03 Mar 1994, Published online: 19 Aug 2006

Citations (19)

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Read on this site (6)

A.G. Navarrete Alcalá, E.I. Chaikina, E.R. Méndez, T.A. Leskova & A.A. Maradudin. (2009) Specular and diffuse scattering of light from two-dimensional randomly rough metal surfaces: experimental and theoretical results. Waves in Random and Complex Media 19:4, pages 600-636.
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Tanos Mikhael Elfouhaily & Charles-Antoine Guérin. (2004) A critical survey of approximate scattering wave theories from random rough surfaces. Waves in Random Media 14:4, pages R1-R40.
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Tamara A Leskova, Ingve Simonsen & Alexei A Maradudin. (2002) The angular intensity correlation functions C (1) and C (10) for the scattering of light from randomly rough dielectric and metal surfaces. Waves in Random Media 12:3, pages 307-319.
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JoséL Álvarez-Pérez. (2001) An extension of the IEM/IEMM surface scattering model. Waves in Random Media 11:3, pages 307-329.
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Karl F Warnick & Weng Cho Chew. (2001) Numerical simulation methods for rough surface scattering. Waves in Random Media 11:1, pages R1-R30.
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R M Fitzgerald, A A Maradudin & F Pincemin. (1995) Scattering of a scalar wave from a two-dimensional randomly rough Neumann surface. Waves in Random Media 5:4, pages 381-411.
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Articles from other publishers (13)

Alexei A. Maradudin & Ingve Simonsen. (2018) Replacement of Ensemble Averaging by the Use of a Broadband Source in Scattering of Light from a One-Dimensional Randomly Rough Interface between Two Dielectric Media. International Journal of Antennas and Propagation 2018, pages 1-7.
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J. B. KryviI. SimonsenA. A. Maradudin. Determination of the normalized surface height autocorrelation function of a two-dimensional randomly rough dielectric surface by the inversion of light scattering data in p-polarization. Determination of the normalized surface height autocorrelation function of a two-dimensional randomly rough dielectric surface by the inversion of light scattering data in p-polarization.
Xiang Su, Xiaoxiao Zhang, Zhensen Wu & Fei Dai. (2014) Theoretical model and experimental study of beam scattering from ocean surface. Theoretical model and experimental study of beam scattering from ocean surface.
I. Simonsen. (2010) Optics of surface disordered systems. The European Physical Journal Special Topics 181:1, pages 1-103.
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Ingve Simonsen, Åge Larsen, Erik Andreassen, Espen Ommundsen & Katrin Nord-Varhaug. (2009) Haze of surface random systems: An approximate analytic approach. Physical Review A 79:6.
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H. Maury, J.-M. André, K. Le Guen, N. Mahne, A. Giglia, S. Nannarone, F. Bridou, F. Delmotte & P. Jonnard. (2009) Analysis of periodic Mo/Si multilayers: Influence of the Mo thickness. Surface Science 603:2, pages 407-411.
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Yasemin Altuncu, Ali Yapar & Ibrahim Akduman. (2007) Buried object approach for solving scattering problems related to rough surfaces. Canadian Journal of Physics 85:1, pages 39-55.
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Andrei V. Shchegrov, Alexei A. Maradudin & Eugenio R. Méndez. 2004. 117 241 .
J. A. DeSanto. 2002. Scattering. Scattering 15 36 .
José L Álvarez-Pérez. (2001) Waves in Random Media 11:3, pages 307-329.
Crossref
E. I. Chaikinal, E. E. García-Guerrero, Zu-Han Gu, T. A. Leskova, Alexei A. Maradudin, E. R. Méndez & A. V. Shchegrov. 2000. Frontiers of Laser Physics and Quantum Optics. Frontiers of Laser Physics and Quantum Optics 225 259 .
R. Botet, E. Y. Poliakov, V. M. Shalaev & V. A. Markel. 1997. Fractals in Engineering. Fractals in Engineering 237 251 .
Vladimir M. Shalaev, R. Botet, J. Mercer & E. B. Stechel. (1996) Optical properties of self-affine thin films. Physical Review B 54:11, pages 8235-8242.
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