A fast precondition technique has been developed which accelerates the finite difference solutions of the 3D Maxwell's equations for geophysical modeling. The technique splits the electric field into its curl free and divergence free projections, and allows for the construction of an inverse operator. Test examples show an order of magnitude speed up compared with a simple Jacobi preconditioner. Using this preconditioner a low frequency Neumann series expansion is developed and used to compute responses at multiple frequencies very efficiently. Simulations requiring responses at multiple frequencies, show that the Neumann series is faster than the preconditioned solution, which must compute solutions at each discrete frequency. A Neumann se...
We attempted to develop a direct time-domain, finite-difference solution for the electromag-netic re...
A new, very fast, approach for calculations of the electromagnetic excitation field for MRI is prese...
A new technique is proposed to process 2D apparent resistivity datasets, in order to obtain a fast a...
The speed of iterative solvers for discretizations of partial differential equations (PDEs) is a sig...
Problem statement: This research reported on new approach to improve speed of simulation time for fr...
3-D controlled-source electromagnetic data are often computed directly in the domain of interest, ei...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
The fields scattered by dielectric objects placed inside metallic waveguides can efficiently be comp...
This paper reviews the state of the art in fast integral equation techniques for solving large scale...
This talk is devoted to the Electromagnetic Imaging of materials. Electromagnetic Imaging of materia...
In high frequency computational electromagnetics, rigorous numerical methods be come unrealistic too...
We discuss the solution of the Maxwell's equations from static to microwave frequencies. First, we r...
The 3D Finite-Difference Time-Domain (FDTD) method simulates structures in the time-domain using a d...
A numerical modeling algorithm has been developed to simulate the electromagnetic response of a thre...
We develop an efficient and robust iterative framework suitable for solving the linear system of equ...
We attempted to develop a direct time-domain, finite-difference solution for the electromag-netic re...
A new, very fast, approach for calculations of the electromagnetic excitation field for MRI is prese...
A new technique is proposed to process 2D apparent resistivity datasets, in order to obtain a fast a...
The speed of iterative solvers for discretizations of partial differential equations (PDEs) is a sig...
Problem statement: This research reported on new approach to improve speed of simulation time for fr...
3-D controlled-source electromagnetic data are often computed directly in the domain of interest, ei...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
The fields scattered by dielectric objects placed inside metallic waveguides can efficiently be comp...
This paper reviews the state of the art in fast integral equation techniques for solving large scale...
This talk is devoted to the Electromagnetic Imaging of materials. Electromagnetic Imaging of materia...
In high frequency computational electromagnetics, rigorous numerical methods be come unrealistic too...
We discuss the solution of the Maxwell's equations from static to microwave frequencies. First, we r...
The 3D Finite-Difference Time-Domain (FDTD) method simulates structures in the time-domain using a d...
A numerical modeling algorithm has been developed to simulate the electromagnetic response of a thre...
We develop an efficient and robust iterative framework suitable for solving the linear system of equ...
We attempted to develop a direct time-domain, finite-difference solution for the electromag-netic re...
A new, very fast, approach for calculations of the electromagnetic excitation field for MRI is prese...
A new technique is proposed to process 2D apparent resistivity datasets, in order to obtain a fast a...