A new approach is presented to determine the angular and spectral characteristics of light diffusely scattered from nanotextured front electrodes into the absorbing silicon layer of silicon thin-film solar cell devices
We present a scattering model based on the scalar scattering theory that allows estimating far field...
We present a scattering model based on the scalar scattering theory that allows estimating far field...
A method to extract spatially and angularly resolved light scattering in thin-film solar cells from ...
We investigate the influence of refractive index contrast on the light scattering properties of nano...
We present a calculation routine for the angular and spectral dependence of scattered light after tr...
Nano-textured interfaces between two media of different refractive indices scatter light. The angula...
Nano-textured interfaces between two media of different refractive indices scatter light. The angula...
Light management is important for improving the performance of thin-film solar cells. Advanced conce...
Textured interfaces in thin-film silicon solar cells improve the efficiency by light scattering. A t...
AbstractIn this paper we present a theoretical study of light trapping in polycrystalline silicon (p...
Textured interfaces in thin-film silicon solar cells improve the efficiency by light scattering. A t...
The optical properties of textured surfaces in the micro and nanometer range are of interest in mani...
ABSTRACT: Light trapping in different thin film technologies is investigated in the context of the E...
Nano-scale randomly textured front transparent oxides are superposed on micro-scale etched glass sub...
Textured interfaces in thin-film silicon solar cells improve the efficiency by light scattering. A t...
We present a scattering model based on the scalar scattering theory that allows estimating far field...
We present a scattering model based on the scalar scattering theory that allows estimating far field...
A method to extract spatially and angularly resolved light scattering in thin-film solar cells from ...
We investigate the influence of refractive index contrast on the light scattering properties of nano...
We present a calculation routine for the angular and spectral dependence of scattered light after tr...
Nano-textured interfaces between two media of different refractive indices scatter light. The angula...
Nano-textured interfaces between two media of different refractive indices scatter light. The angula...
Light management is important for improving the performance of thin-film solar cells. Advanced conce...
Textured interfaces in thin-film silicon solar cells improve the efficiency by light scattering. A t...
AbstractIn this paper we present a theoretical study of light trapping in polycrystalline silicon (p...
Textured interfaces in thin-film silicon solar cells improve the efficiency by light scattering. A t...
The optical properties of textured surfaces in the micro and nanometer range are of interest in mani...
ABSTRACT: Light trapping in different thin film technologies is investigated in the context of the E...
Nano-scale randomly textured front transparent oxides are superposed on micro-scale etched glass sub...
Textured interfaces in thin-film silicon solar cells improve the efficiency by light scattering. A t...
We present a scattering model based on the scalar scattering theory that allows estimating far field...
We present a scattering model based on the scalar scattering theory that allows estimating far field...
A method to extract spatially and angularly resolved light scattering in thin-film solar cells from ...
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