The book chapter will aim at introducing the background knowledge, basic theories, supporting techniques, numerical results, and future research for the high-order symplectic finite-difference time-domain scheme. The theories of symplectic geometry and Hamiltonian are reviewed in Section 2 followed by the symplectiness of Maxwell’s equations presented in Section 3. Next, the numerical stability and dispersion analyses are given in Section 4. Then, in Section 5, we will make a tour of the supporting techniques but do not discuss them in detail. These techniques involve source excitation, perfectly matched layer, near-to-far-field transformation, inhomogeneous boundary treatments, and parameter extractions. The numerical results on propagatio...
A novel symplectic algorithm is proposed to solve the Maxwell–Schrödinger (M–S) system for investiga...
The Discontinuous Galerkin Time Domain (DGTD) methods are now popular for the solution of wave propa...
The traditional finite-difference time-domain (FDTD) method [1], which is explicit second-order-accu...
To discretize Maxwell's equations, a variety of high-order symplectic finite-difference time-domain ...
Abstract—To discretize Maxwell’s equations, a variety of high-order symplectic finite-difference tim...
The Maxwell's equations are written as normal Hamilton equations using functional variation method. ...
Euler-Hamilton equations are provided using Hamiltonian function of Maxwell's equations. High order ...
Multi-step high-order finite difference schemes for infinite dimensional Hamiltonian systems with sp...
A novel high-order time-domain scheme with a four-stage optimized symplectic integrator propagator i...
We construct a set of reliable finite difference methods for approximating the solution to Maxwell&...
The scope of this doctoral thesis is the development and implementation of novel, higher order finit...
A high-order symplectic finite-difference time-domain (SFDTD) scheme using the diagonal split-cell m...
Abstract-The connections between Maxwell’s equations and symplectic matrix are studied. First, we an...
International audienceThis paper presents a finite element method with high spatial order for solvin...
Using symplectic integrator propagator, a three-dimensional fourth-order symplectic finite differenc...
A novel symplectic algorithm is proposed to solve the Maxwell–Schrödinger (M–S) system for investiga...
The Discontinuous Galerkin Time Domain (DGTD) methods are now popular for the solution of wave propa...
The traditional finite-difference time-domain (FDTD) method [1], which is explicit second-order-accu...
To discretize Maxwell's equations, a variety of high-order symplectic finite-difference time-domain ...
Abstract—To discretize Maxwell’s equations, a variety of high-order symplectic finite-difference tim...
The Maxwell's equations are written as normal Hamilton equations using functional variation method. ...
Euler-Hamilton equations are provided using Hamiltonian function of Maxwell's equations. High order ...
Multi-step high-order finite difference schemes for infinite dimensional Hamiltonian systems with sp...
A novel high-order time-domain scheme with a four-stage optimized symplectic integrator propagator i...
We construct a set of reliable finite difference methods for approximating the solution to Maxwell&...
The scope of this doctoral thesis is the development and implementation of novel, higher order finit...
A high-order symplectic finite-difference time-domain (SFDTD) scheme using the diagonal split-cell m...
Abstract-The connections between Maxwell’s equations and symplectic matrix are studied. First, we an...
International audienceThis paper presents a finite element method with high spatial order for solvin...
Using symplectic integrator propagator, a three-dimensional fourth-order symplectic finite differenc...
A novel symplectic algorithm is proposed to solve the Maxwell–Schrödinger (M–S) system for investiga...
The Discontinuous Galerkin Time Domain (DGTD) methods are now popular for the solution of wave propa...
The traditional finite-difference time-domain (FDTD) method [1], which is explicit second-order-accu...