In this paper, an accurate finitedifference time-domain (FDTD) scheme is proposed for studying electromagnetic pulse propagation in Havriliak-Negami dispersive medium. In traditional FDTD methods, the main drawback occurring in the evaluation of the propagation in a general dispersive media is the approximation of the fractional derivatives appearing in the time-domain permittivity model. In order to face this problem, in this paper we illustrate a FDTD scheme based on the direct solving of the time-domain Maxwell equations by using the Riemann-Liouville operator of fractional differentiation. The feasibility of the proposed method is demonstrated by simulating the transient wave propagation in general bulk and slab dispersive materials
Electromagnetic fields are involved in several therapeutic and diagnostic applications such as hyper...
Fractional calculus is a fruitful field of research in science and engineering. The concept of fract...
In this paper a time domain formulation of the first and second precursor in a dispersive materials i...
A novel finite-difference time-domain (FDTD) scheme modeling the electromagnetic pulse propagation i...
In this paper, an accurate finite-difference time-domain (FDTD) scheme for modeling the electromagne...
The interaction of electromagnetic fields and biological tissues has become a topic of increasing in...
The interaction of electromagnetic fields and biological tissues has become a topic of increasing in...
A novel finite-difference time-domain algorithm for modeling ultrawideband electromagnetic pulse pro...
The use of fractional derivatives and integrals has been steadily increasing thanks to their ability...
This dissertation addresses electromagnetic pulse propagation through anomalously dispersive dielect...
This thesis treats the problem of transient electromagnetic pulse propagation in temporally dispersi...
Electromagnetic fields are involved in several therapeutic and diagnostic applications such as hyper...
Electromagnetic fields are involved in several therapeutic and diagnostic applications such as hyper...
Fractional calculus is a fruitful field of research in science and engineering. The concept of fract...
In this paper a time domain formulation of the first and second precursor in a dispersive materials i...
A novel finite-difference time-domain (FDTD) scheme modeling the electromagnetic pulse propagation i...
In this paper, an accurate finite-difference time-domain (FDTD) scheme for modeling the electromagne...
The interaction of electromagnetic fields and biological tissues has become a topic of increasing in...
The interaction of electromagnetic fields and biological tissues has become a topic of increasing in...
A novel finite-difference time-domain algorithm for modeling ultrawideband electromagnetic pulse pro...
The use of fractional derivatives and integrals has been steadily increasing thanks to their ability...
This dissertation addresses electromagnetic pulse propagation through anomalously dispersive dielect...
This thesis treats the problem of transient electromagnetic pulse propagation in temporally dispersi...
Electromagnetic fields are involved in several therapeutic and diagnostic applications such as hyper...
Electromagnetic fields are involved in several therapeutic and diagnostic applications such as hyper...
Fractional calculus is a fruitful field of research in science and engineering. The concept of fract...
In this paper a time domain formulation of the first and second precursor in a dispersive materials i...