Abstract
The local ideality factor analyses the localized evolution of the ideality factor with relation to the voltage. In this paper a single diode model is used, by means of its asymptotic behavior, to outline the role of the characteristic parameters of the circuit into the solar cell behavior. The local ideality factor is found to be dependent on the large variability range of values of every single component in the equivalent circuit. An asymptotic analysis for a double diode model is suggested and the relevance of every parameter in the circuit is hinted. Luminescence techniques are used to introduce the spatially resolved voltage distribution of a deliberately laser-damaged solar cell.
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