This paper presents two novel implementations of the Differential method to solve the Maxwell equations in nanostructured optoelectronic solid state devices. The first proposed implementation is based on an improved and computationally efficient T-matrix formulation that adopts multiple-precision arithmetic to tackle the numerical instability problem which arises due to evanescent modes. The second implementation adopts the iterative approach that allows to achieve low computational complexity O(N logN) or better. The proposed algorithms may work with structures with arbitrary spatial variation of the permittivity. The developed two-dimensional numerical simulator is applied to analyze the dependence of the absorption characteristics of a thin silicon slab on the morphology of the front interface and on the angle of incidence of the radiation with respect to the device surface.
Computationally efficient method for optical simulation of solar cells and their applications / Igor Semenikhin; Mauro Zanuccoli; Claudio Fiegna; Vladimir Vyurkov; Enrico Sangiorgi. - ELETTRONICO. - 8700:(2012), pp. 870012.0-870012.12. (Intervento presentato al convegno International Conference Micro- and Nano-Electronics 2012 tenutosi a Moscow nel 2012) [10.1117/12.2017154].
Computationally efficient method for optical simulation of solar cells and their applications
ZANUCCOLI, MAURO;FIEGNA, CLAUDIO;SANGIORGI, ENRICO
2012
Abstract
This paper presents two novel implementations of the Differential method to solve the Maxwell equations in nanostructured optoelectronic solid state devices. The first proposed implementation is based on an improved and computationally efficient T-matrix formulation that adopts multiple-precision arithmetic to tackle the numerical instability problem which arises due to evanescent modes. The second implementation adopts the iterative approach that allows to achieve low computational complexity O(N logN) or better. The proposed algorithms may work with structures with arbitrary spatial variation of the permittivity. The developed two-dimensional numerical simulator is applied to analyze the dependence of the absorption characteristics of a thin silicon slab on the morphology of the front interface and on the angle of incidence of the radiation with respect to the device surface.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
