Add to ORKGnone5This paper presents some applications of a new implementation of the Fourier modal method to solve the Maxwell equations in nanostructured optoelectronic solid state devices like solar cells and image sensors. The proposed method is based on an improved and computational efficient T-matrix approach that can be extended to three-dimensional geometries. The applications reported are particularly interesting for photovoltaic devices as photon management strategies to improve the light absorption inside the semiconductor medium.noneI. Semenikhin; M. Zanuccoli; V. Vyurkov; E. Sangiorgi; C. FiegnaI. Semenikhin; M. Zanuccoli; V. Vyurkov; E. Sangiorgi; C. Fiegn
In this thesis, we theoretically study the electromagnetic wave propagation in several passive and a...
In recent years, computer simulation has become a standard tool for analyzing solar energy systems. ...
The improvement of solar cell efficiency requires device optimization, including the careful design ...
This paper presents some applications of a new implementation of the Fourier modal method to solve t...
This paper presents a new implementation of the Fourier modal method to solve the Maxwell equations...
This paper presents a new implementation of the Fourier modal method to solve the Maxwell equations ...
none6This paper presents a new implementation of the Rigorous Coupled Wave Analysis (RCWA) method to...
This paper presents two novel implementations of the Differential method to solve the Maxwell equati...
Absorption modeling is at the core of the design process of nanostructured solar cells and photodete...
Most available books on computational electrodynamics are focused on FDTD, FEM, or other specific te...
To further improve the light management and optical performance of solar cells, research into nano-t...
This paper reviews the current progress in mathematical modeling of anti-reflective subwavelength s...
International audienceThe numerical modeling of light interaction with nanostructured materials is a...
The calculation of the electromagnetic field in nanostructured materials and nano-optoelectronic dev...
The combination of purely numerical methods, such as the finite element method, with an analytical t...
In this thesis, we theoretically study the electromagnetic wave propagation in several passive and a...
In recent years, computer simulation has become a standard tool for analyzing solar energy systems. ...
The improvement of solar cell efficiency requires device optimization, including the careful design ...
This paper presents some applications of a new implementation of the Fourier modal method to solve t...
This paper presents a new implementation of the Fourier modal method to solve the Maxwell equations...
This paper presents a new implementation of the Fourier modal method to solve the Maxwell equations ...
none6This paper presents a new implementation of the Rigorous Coupled Wave Analysis (RCWA) method to...
This paper presents two novel implementations of the Differential method to solve the Maxwell equati...
Absorption modeling is at the core of the design process of nanostructured solar cells and photodete...
Most available books on computational electrodynamics are focused on FDTD, FEM, or other specific te...
To further improve the light management and optical performance of solar cells, research into nano-t...
This paper reviews the current progress in mathematical modeling of anti-reflective subwavelength s...
International audienceThe numerical modeling of light interaction with nanostructured materials is a...
The calculation of the electromagnetic field in nanostructured materials and nano-optoelectronic dev...
The combination of purely numerical methods, such as the finite element method, with an analytical t...
In this thesis, we theoretically study the electromagnetic wave propagation in several passive and a...
In recent years, computer simulation has become a standard tool for analyzing solar energy systems. ...
The improvement of solar cell efficiency requires device optimization, including the careful design ...