Resonant Absorption Enhancement in Solar Cells With Periodically Textured Interfaces

Author

Haug, Franz-Josef ; Soderstrom, Karin ; Ballif, Christophe

Author_Institution

Inst. of Microeng., Ecole Polytech. Fed. de Lausanne, Neuchatel, Switzerland

Volume

4

Issue

3

fYear

2014

fDate

May-14

Firstpage

785

Lastpage

790

Abstract

We study the interaction of electromagnetic waves in layered media with textured interfaces. Experimental results of a solar cell grown on a sinusoidal back reflector are compared with a theoretical model using an expansion into diffraction modes. We assume the validity of the Rayleigh hypothesis and show that the continuity equations extend the coupling only to neighboring orders for the case of sinusoidal textures. This approach includes all essential aspects of the coupling process and it requires only a moderate amount of mathematical complexity. Our modeling results correctly reproduce the absorption of the periodically textured solar cell for both polarization directions. The absorption phenomena underlying the light-trapping process can thus be studied with a small number of parameters like period, depth, and film thickness.

Keywords

Rayleigh scattering; interface phenomena; semiconductor device models; solar cells; Rayleigh hypothesis; absorption phenomena; continuity equations; diffraction modes; electromagnetic waves; layered media; light-trapping process; mathematical complexity; periodically textured interface; periodically textured solar cell absorption; polarization direction; resonant absorption enhancement; sinusoidal back reflector; sinusoidal textures; solar cells; theoretical model; Absorption; Couplings; Diffraction; Gratings; Mathematical model; Photovoltaic cells; Silicon; Amorphous silicon; diffraction efficiency; light trapping;

fLanguage

English

Journal_Title

Photovoltaics, IEEE Journal of

Publisher

ieee

ISSN

2156-3381

Type

jour

DOI

10.1109/JPHOTOV.2014.2310750

Filename

6782732