The Finite Difference Time Domain Method for
ISBN: , SKU: , AUTHOR: Kunz, Karl S. / Kunz, Kunz S. / Luebbers, Raymond J., PUBLISHER: CRC Press, <strong><strong>Thestrong>strong> Finite-Difference <strong>Timestrong>-domain (FDTD) method allows you to compute electromagnetic interaction <strong>forstrong> complex problem geometries with ease. <strong><strong>Thestrong>strong> simplicity of <strong><strong>thestrong>strong> approach coupled with its far-reaching usefulness, create <strong><strong>thestrong>strong> powerful, popular method presented in <strong><strong>Thestrong>strong> Finite Difference <strong>Timestrong> Domain Method <strong>forstrong> Electromagnetics. This volume offers <strong>timestrong>less applications and <strong>forstrong>mulations you can use to treat virtually any material type and geometry. <strong><strong>Thestrong>strong> Finite Difference <strong>Timestrong> Domain Method <strong>forstrong> Electromagnetics explores <strong><strong>thestrong>strong> ma<strong><strong>thestrong>strong>matical foundations of FDTD, including stability, outer radiation boundary conditions, and different coordinate systems. It covers derivations of FDTD <strong>forstrong> use with PEC, metal, lossy dielectrics, gyrotropic materials, and anisotropic materials. A number of applications are completely worked out with numerous figures to illustrate <strong><strong>thestrong>strong> results. It also includes a printed <strong>FORstrong>TRAN 77 version of <strong><strong>thestrong>strong> code that implements <strong><strong>thestrong>strong> technique in three dimensions <strong>forstrong> lossy dielectric materials. <strong><strong>Thestrong>strong>re are many methods <strong>forstrong> analyzing electromagnetic interactions <strong>forstrong> problem geometries. With <strong><strong>Thestrong>strong> Finite Difference <strong>Timestrong> Domain Method <strong>forstrong> Electromagnetics, you will learn <strong><strong>thestrong>strong> simplest, most useful of <strong><strong>thestrong>strong>se methods, from <strong><strong>thestrong>strong> basics through to <strong><strong>thestrong>strong> practical applications.