Maxwell's equations for propagation of electromagnetic waves in dispersive and absorptive (passive) media are represented in the form of the Schr\"odinger equation $i\partial \Psi/\partial t = {H}\Psi$, where ${H}$ is a linear differential operator (Hamiltonian) acting on a multi-dimensional vector $\Psi$ composed of the electromagnetic fields and auxiliary matter fields describing the medium response. In this representation, the initial value problem is solved by applying the fundamental solution $\exp(-itH)$ to the initial field configuration. The Faber polynomial approximation of the fundamental solution is used to develop a numerical algorithm for propagation of broad band wave packets in passive media. The action of the Hamiltonian on ...
A generalized Green's function technique for wave propagation of transient fields in one-dimensional...
AbstractIn this paper we consider the propagation of optical pulses in dielectric media with nontriv...
In this paper a time domain formulation of the first and second precursor in a dispersive materials i...
Maxwell's equations for electrodynamics of dispersive and absorptive (passive) media are written in ...
Abstract—We propose a new approach to solve the problem of the propagation of electromagnetic waves ...
In this talk, we investigate mathematical models for electromagnetic wave propagation in dispersive ...
This thesis treats the problem of transient electromagnetic pulse propagation in temporally dispersi...
A Hamiltonian framework is developed for a sequence of ultrashort optical pulses propagating in a no...
In two volumes, this book presents a detailed, systematic treatment of electromagnetics with applica...
We will study high-frequency wave propagation in periodic media. A typical example is given by the S...
This thesis presents a Hamiltonian formulation of the electromagnetic fields in structured (inhomoge...
This dissertation examines models, methods, and applications of electric field pulse propagation in ...
Abstract A new approach for using polynomial chaos‐based expansion finite‐difference time‐domain (PC...
This thesis presents a Hamiltonian formulation of the electromagnetic fields in structured (inhomoge...
The aim of this work is to propose an efficient numerical approximation of high frequency pulses pro...
A generalized Green's function technique for wave propagation of transient fields in one-dimensional...
AbstractIn this paper we consider the propagation of optical pulses in dielectric media with nontriv...
In this paper a time domain formulation of the first and second precursor in a dispersive materials i...
Maxwell's equations for electrodynamics of dispersive and absorptive (passive) media are written in ...
Abstract—We propose a new approach to solve the problem of the propagation of electromagnetic waves ...
In this talk, we investigate mathematical models for electromagnetic wave propagation in dispersive ...
This thesis treats the problem of transient electromagnetic pulse propagation in temporally dispersi...
A Hamiltonian framework is developed for a sequence of ultrashort optical pulses propagating in a no...
In two volumes, this book presents a detailed, systematic treatment of electromagnetics with applica...
We will study high-frequency wave propagation in periodic media. A typical example is given by the S...
This thesis presents a Hamiltonian formulation of the electromagnetic fields in structured (inhomoge...
This dissertation examines models, methods, and applications of electric field pulse propagation in ...
Abstract A new approach for using polynomial chaos‐based expansion finite‐difference time‐domain (PC...
This thesis presents a Hamiltonian formulation of the electromagnetic fields in structured (inhomoge...
The aim of this work is to propose an efficient numerical approximation of high frequency pulses pro...
A generalized Green's function technique for wave propagation of transient fields in one-dimensional...
AbstractIn this paper we consider the propagation of optical pulses in dielectric media with nontriv...
In this paper a time domain formulation of the first and second precursor in a dispersive materials i...