Title :
Cartesian Shift Thin Wire Formalism in the FDTD Method With Multiwire Junctions
Author :
Guiffaut, Christophe ; Reineix, Alain
Author_Institution :
XLIM Lab., Univ. De Limoges, Lomoges, France
Abstract :
The Holland and Simpson thin wire formalism is a versatile technique to deal with wires in the FDTD method. This paper develops an approach to correctly perform a junction between several wires at any Yee´s cell location. The application context is the wires parallel to Cartesian axes with any translation in the Yee´s Cell. The sensitivity of the thin wire current to Cartesian shift is also minimized in our enhanced formalism. The method is presented in a general framework with non-uniform FDTD spatial steps. Beside, the wire segment length can be different of the FDTD spatial steps and also the wire position does not need to coincide with any edge or node of the Yee´s cell.
Keywords :
antenna theory; finite difference time-domain analysis; wire antennas; Cartesian shift thin wire formalism; Yee cell location; finite difference time-domain analysis; multiwire junctions; thin wire current; wire position; wire segment length; Associate members; Circuit stability; Coaxial cables; Equations; Feeds; Finite difference methods; Inductance; Magnetic fields; Nonlinear circuits; Probes; Time domain analysis; Wire; Finite difference time domain (FDTD) method; multiwire junction; thin wire;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2010.2050427
