Description

Book Synopsis

This book is an essential resource for researchers involved in designing antennas and RCS calculations. It is also useful for students studying high frequency diffraction techniques. It contains basic original ideas of the Physical Theory of Diffraction (PTD), examples of its practical application, and its validation by the mathematical theory of diffraction. The derived analytic expressions are convenient for numerical calculations and clearly illustrate the physical structure of the scattered field. The text's key topics include: Theory of diffraction at black bodies introduces the Shadow Radiation, a fundamental component of the scattered field; RCS of finite bodies of revolution-cones, paraboloids, etc.; models of construction elements for aircraft and missiles; scheme for measurement of that part of a scattered field which is radiated by the diffraction (so-called nonuniform) currents induced on scattering objects; development of the parabolic equation method for investigation of edge-diffraction; and a new exact and asymptotic solutions in the strip diffraction problems, including scattering at an open resonator.



Table of Contents
  • Chapter 1: Diffraction of Electromagnetic Waves at Black Bodies: Generalization of Kirchhoff-Kottler Theory
  • Chapter 2: Edge Diffraction at Convex Perfectly Conducting Bodies: Elements of the Physical Theory of Diffraction
  • Chapter 3: Edge Diffraction at Concave Surfaces: Extension of the Physical Theory of Diffraction
  • Chapter 4: Measurement of Radiation from Diffraction / Nonuniform Currents
  • Chapter 5: Analysis of Wedge Diffraction Using the Parabolic Equation Method
  • Chapter 6: Current Waves on Thin Conductors and Strips
  • Chapter 7: Radiation of Edge Waves: Theory Based on the Reciprocity Theorem
  • Chapter 8: Functional and Integral Equations for Strip Diffraction (Neumann Boundary Problem)
  • Chapter 9: Asymptotic Representation for the Current Density on a Strip
  • Chapter 10: Asymptotic Representation for the Scattering Pattern
  • Chapter 11: Plane Wave Diffraction at a Strip Oriented in the Direction of Polarization (Dirichlet Boundary Problem)
  • Chapter 12: Edge Diffraction at Open-Ended Parallel Plate Resonator
  • Appendix 1: Relationships Between the Gaussian System (GS) and the System International (SI) for Electromagnetic Units
  • Appendix 2: The Key Equivalence Theorem

Theory of Edge Diffraction in Electromagnetics:

    Product form

    £84.55

    Includes FREE delivery

    RRP £89.00 – you save £4.45 (5%)

    Order before 4pm tomorrow for delivery by Wed 24 Jun 2026.

    A Hardback by P.Ya. Ufimtsev, Andrew J. Terzuoli, Richard D. Moore

    2 in stock

      Trusted by thousands of customers. See 2,385+ Customer Reviews

      View other formats and editions of Theory of Edge Diffraction in Electromagnetics: by P.Ya. Ufimtsev

      Publisher: SciTech Publishing Inc
      Publication Date: 30/06/2009
      ISBN13: 9781891121661, 978-1891121661
      ISBN10: 1891121669
      Also in:
      Technology, Engineering & Agriculture Electronics and communications engineering

      Description

      Book Synopsis

      This book is an essential resource for researchers involved in designing antennas and RCS calculations. It is also useful for students studying high frequency diffraction techniques. It contains basic original ideas of the Physical Theory of Diffraction (PTD), examples of its practical application, and its validation by the mathematical theory of diffraction. The derived analytic expressions are convenient for numerical calculations and clearly illustrate the physical structure of the scattered field. The text's key topics include: Theory of diffraction at black bodies introduces the Shadow Radiation, a fundamental component of the scattered field; RCS of finite bodies of revolution-cones, paraboloids, etc.; models of construction elements for aircraft and missiles; scheme for measurement of that part of a scattered field which is radiated by the diffraction (so-called nonuniform) currents induced on scattering objects; development of the parabolic equation method for investigation of edge-diffraction; and a new exact and asymptotic solutions in the strip diffraction problems, including scattering at an open resonator.



      Table of Contents
      • Chapter 1: Diffraction of Electromagnetic Waves at Black Bodies: Generalization of Kirchhoff-Kottler Theory
      • Chapter 2: Edge Diffraction at Convex Perfectly Conducting Bodies: Elements of the Physical Theory of Diffraction
      • Chapter 3: Edge Diffraction at Concave Surfaces: Extension of the Physical Theory of Diffraction
      • Chapter 4: Measurement of Radiation from Diffraction / Nonuniform Currents
      • Chapter 5: Analysis of Wedge Diffraction Using the Parabolic Equation Method
      • Chapter 6: Current Waves on Thin Conductors and Strips
      • Chapter 7: Radiation of Edge Waves: Theory Based on the Reciprocity Theorem
      • Chapter 8: Functional and Integral Equations for Strip Diffraction (Neumann Boundary Problem)
      • Chapter 9: Asymptotic Representation for the Current Density on a Strip
      • Chapter 10: Asymptotic Representation for the Scattering Pattern
      • Chapter 11: Plane Wave Diffraction at a Strip Oriented in the Direction of Polarization (Dirichlet Boundary Problem)
      • Chapter 12: Edge Diffraction at Open-Ended Parallel Plate Resonator
      • Appendix 1: Relationships Between the Gaussian System (GS) and the System International (SI) for Electromagnetic Units
      • Appendix 2: The Key Equivalence Theorem

      Recently viewed products

      © 2026 Book Curl

        • American Express
        • Apple Pay
        • Diners Club
        • Discover
        • Google Pay
        • Maestro
        • Mastercard
        • PayPal
        • Shop Pay
        • Union Pay
        • Visa

        Login

        Forgot your password?

        Don't have an account yet?
        Create account