Generalized Multipole Techniques for Electromagnetic and Light Scattering: Generalized Multipole Techniques for Electromagnetic and Light Scattering.pdf

Contents Chapter 1. Introduction by A. Doicu and T. Wriedt 1 References 4 Chapter 2. Review of the GeneraUzed Multipole Technique Literature by T. Wriedt 5 2.1. Point matching method 6 2.2. Extended boundary condition method (EBCM) 7 2.3. Multiple multipole method (MMP) 8 2.4. Yasuura's methods 10 2.5. Discrete sources method (DSM) 11 2.6. Method of auxiliary sources (MAS) 12 2.7. Analytical continuation of solutions of boundary problems 13 2.8. Conclusion 14 References 14 Chapter 3. The Multiple Multipole Program (MMP) and the Generalized Multipole Technique (GMT) by Ch. Hafner 21 3.1. Introduction 22 3.2. From CHA to MMP expansions 22 3.3. Matrix methods 25 3.4. Special MMP features 27 3.5. Example: Scattering at a particle on a planar structure 33 References 38 Chapter 4. Models of Electromagnetic Scattering Problems Based on Discrete Sources Method by Yu.A. Eremin, N.V Orlov, andA.G. Sveshnikov 39 4.1. Introduction 40 4.2. Mathematical models for the Helmholtz equation 42 4.3. Mathematical models for the Maxwell equations 55 4.4. Conclusion 78 References 79 Chapter 5. Singularities of Wave Fields and Numerical Methods of Solving the Boundary-Value Problems for Helmholtz Equations byA.G. Kyurkchan, A.L Sukov, andA.I. Kleev 81 5.1. Introduction 82 5.2. Basic analytical representations of wave fields 82 5.3. Singularities of a wave field and their localization 87 5.4. Utilization of the information about wave field singularities when solving the boundaryvalue problems for the Helmholtz equation 95 References 108 vi Contents Chapter 6. Yasuura's Method, its Relation to the Fictitious-Source Methods, and its Advancements in the Solution of 2D Problems by Y. Okuno andH. Ikuno Ill 6.1. Introduction 112 6.2. Formulation of a sample problem 113 6.3. Modal functions 114 6.4. An approximate solution 116 6.5. Integral representation of the solution 116 6.6. Method of solution 1: theCYM 116 6.7. Method of solution 2: the YMSP 118 6.8. Method of solution 3: the YMSSP 121 6.9. Method of numerical analysis and examples 124 6.10. Miscellanea 134 6.11. Conclusion 136 6.12. Appendix A 136 6.13. Appendix B 137 6.14. Appendix C 138 References 140 Chapter 7. The Method of Auxiliary Sources in Electromagnetic Scattering Problems by EG. Bogdanov, D.D. Karkashadze, and R.S. Zaridze 143 7.1. Introduction 144 7.2. Problem formulation 145 7.3. Construction of the solution by the method of auxiliary sources 146 7.4. Choice of auxihary parameters 150 7.5. AppUcation to particular problems 158 7.6. Conclusions 169 References 170 Chapter 8. Numerical Solution of Electromagnetic Scattering Problems of Three Dimensional Nonaxisymmetrical Bodies on the Foundation of Discrete Sources Method by A. Dmitrenko 173 8.1. Introduction 174 8.2. Perfectly conducting scatterer 175 8.3. Impedance scatterer 178 8.4. Magneto-dielectric scatterer 179 8.5. Chiral scatterer 182 8.6. Coated scatterer 184 8.7. Some ideas towards the solution of dense ill-posed linear algebraic equation systems of discrete sources method 188 8.8. Numerical results 190 8.9. Conclusion 202 References 202 Chapter 9. Hybrid GMT-MoM Method by F. Obelleiro, J.L. Rodriguez, and L Landesa 205 9.1. Introduction 206 9.2. Formulation 208 9.3. On the location of GMT and MoM sources 214 9.4. Regularization of the GMT-MoM method 218 9.5. Conclusions 225 References 226 Chapter 10. Null-Field Method with Discrete Sources by A. Doicu 229 10.1. Introduction 230 10.2. Transmission boundary-value problem 231 Contents vii 10.3. Null-field equations 233 10.4. Complete systems of functions 234 10.5. Null-field method 246 10.6. Numerical results 248 10.7. Conclusions 251 References 252 Author Index 255 Subject Index 261

本帖最后由 nonose 于 2009-11-3 12:08 编辑

1# nonose
楼下的楼下

做成一本书就好了

本帖最后由 nonose 于 2009-11-3 12:07 编辑

Generalized Multipole Techniques for Electromagnetic and Light

:31bb[code][/code]

thank you