Title :
Some Numerical Aspects of an Extension of the FDTD Method to Incorporate Magnetized Ferrites
Author :
Pereda, José A. ; Grande, Ana ; Gonzalez, O. ; Vegas, Ángel
Author_Institution :
Cantabria Univ., Santander
Abstract :
The original finite-difference time-domain (FDTD) method is extended to incorporate partially magnetized ferrites, which are characterized by a well-known empirical permeability tensor. With the aim of studying the numerical features (stability and accuracy) of the resulting FDTD algorithm, we have considered the propagation of plane-waves along longitudinally magnetized ferrite materials. A von Neumann stability analysis shows that the stability condition of the original FDTD method is preserved and that the algorithm does not exhibit numerical dissipation. The accuracy of the numerical results is not deteriorated with respect those obtained in the demagnetized case.
Keywords :
ferrites; finite difference time-domain analysis; magnetic permeability; magnetisation; numerical stability; FDTD method; empirical permeability tensor; finite-difference time-domain method; magnetized ferrite materials; plane-wave propagation; von Neumann stability analysis; Demagnetization; Ferrites; Finite difference methods; Magnetic domains; Magnetic materials; Permeability; Saturation magnetization; Stability analysis; Tensile stress; Time domain analysis; FDTD methods; Magnetized ferrite; stability;
Conference_Titel :
Computational Electromagnetics in Time-Domain, 2007. CEM-TD 2007. Workshop on
Conference_Location :
Perugia
Print_ISBN :
978-1-4244-1170-2
Electronic_ISBN :
978-1-4244-1170-2
DOI :
10.1109/CEMTD.2007.4373522
