The periodic Green's functions (PGF) in layered media can be expressed as an infinite series in terms of the spectral domain Green's functions. The discrete complex image method (DCIM) can be used to approximate these spectral domain Green's functions. In this work, it is demonstrated that the complete and accurate DCIM approximation of the PGF is possible only when the DCIM approximation is obtained through the samples of the spectral domain Green's function along the real k(p) axis. This choice of sampling path requires the extraction of surface wave pole contributions prior to the application of DCIM. Different forms of the Ewald method are utilized to efficiently compute the infinite summations associated with the complex images and the...
Calculating the Green\u27s functions in lossy layered media using the discrete complex image method ...
This dissertation is mainly focused on the efficient computation of Green's function and electromagn...
The closed-form Green's functions (CFGF), derived for the vector and scalar potentials in planar mul...
Numerical analysis of periodic structures in layered media is usually accomplished by using Method o...
Abstract—A novel implementation of discrete complex image method (DCIM) based on the Sommmerfeld bra...
In this paper a new technique for the evaluation of the Green's functions of filament sources in lay...
Abstract—Discrete complex image method is introduced to get a closed-form dyadic Green’s function by...
Abstract—In this paper a new technique for the evaluation of the Green’s functions of filament sourc...
A novel implementation of discrete complex image method (DCIM) based on the Sommmerfeld branch cut i...
A novel computational method to evaluate the Sommerfeld integral (SI) efficiently and accurately is ...
The numerical implementation of the complex image approach for the Green's function of a mixed-poten...
The mixed potential integral equation (MPIE) formulation is convenient for problems involving layere...
The Method of Moments (MoM) has been widely used for the full-wave electromagnetic analysis of plana...
The development of computationally efficient Green's functions in layered-media environments is impo...
The closed-form Green's functions of the vector and scalar potentials in the spatial domain are pres...
Calculating the Green\u27s functions in lossy layered media using the discrete complex image method ...
This dissertation is mainly focused on the efficient computation of Green's function and electromagn...
The closed-form Green's functions (CFGF), derived for the vector and scalar potentials in planar mul...
Numerical analysis of periodic structures in layered media is usually accomplished by using Method o...
Abstract—A novel implementation of discrete complex image method (DCIM) based on the Sommmerfeld bra...
In this paper a new technique for the evaluation of the Green's functions of filament sources in lay...
Abstract—Discrete complex image method is introduced to get a closed-form dyadic Green’s function by...
Abstract—In this paper a new technique for the evaluation of the Green’s functions of filament sourc...
A novel implementation of discrete complex image method (DCIM) based on the Sommmerfeld branch cut i...
A novel computational method to evaluate the Sommerfeld integral (SI) efficiently and accurately is ...
The numerical implementation of the complex image approach for the Green's function of a mixed-poten...
The mixed potential integral equation (MPIE) formulation is convenient for problems involving layere...
The Method of Moments (MoM) has been widely used for the full-wave electromagnetic analysis of plana...
The development of computationally efficient Green's functions in layered-media environments is impo...
The closed-form Green's functions of the vector and scalar potentials in the spatial domain are pres...
Calculating the Green\u27s functions in lossy layered media using the discrete complex image method ...
This dissertation is mainly focused on the efficient computation of Green's function and electromagn...
The closed-form Green's functions (CFGF), derived for the vector and scalar potentials in planar mul...