The ambipolar Auger coefficient: Measured temperature dependence in electron irradiated and highly injected n-type silicon

From free-carrier absorption measurements of spatially and temporally resolved excess carrier concentrations in the n-base of electron irradiated, low doped, highly injected p-i-n type diodes, the effective ambipolar lifetime has been extracted with respect to different injection levels and temperat...

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Veröffentlicht in:	Journal of applied physics 1997-03, Vol.81 (5), p.2256-2262
Hauptverfasser:	Jonsson, P., Bleichner, H., Isberg, M., Nordlander, E.
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Sprache:	eng
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container_title	Journal of applied physics
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creator	Jonsson, P. Bleichner, H. Isberg, M. Nordlander, E.
description	From free-carrier absorption measurements of spatially and temporally resolved excess carrier concentrations in the n-base of electron irradiated, low doped, highly injected p-i-n type diodes, the effective ambipolar lifetime has been extracted with respect to different injection levels and temperatures. By measuring lifetimes up to injection levels of 3×1017 cm−3, the ambipolar Auger coefficient Ca and its temperature dependence has been determined in the range of 300–420 K. In accordance with recent publications, the room temperature value of the Auger coefficient was found to be about three times higher than one of the most commonly used values. Further on, the ambipolar Auger coefficient is empirically estimated to vary with temperature as Ca(T)=1.1×10−30(T/300)1.8, were T is the absolute temperature. Also the ambipolar diffusion coefficient has been investigated and compared with different models. The results are important and useful in simulation of high-injected silicon devices, i.e., solar cells and power devices.
doi_str_mv	10.1063/1.364277
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By measuring lifetimes up to injection levels of 3×1017 cm−3, the ambipolar Auger coefficient Ca and its temperature dependence has been determined in the range of 300–420 K. In accordance with recent publications, the room temperature value of the Auger coefficient was found to be about three times higher than one of the most commonly used values. Further on, the ambipolar Auger coefficient is empirically estimated to vary with temperature as Ca(T)=1.1×10−30(T/300)1.8, were T is the absolute temperature. Also the ambipolar diffusion coefficient has been investigated and compared with different models. 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title	The ambipolar Auger coefficient: Measured temperature dependence in electron irradiated and highly injected n-type silicon
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