The effect of low-temperature anneals (≤500 °C) on Cz-Si minority carrier lifetime has been investigated using near-band-edge cathodoluminescence (CL). The low-temperature anneals are intended to produce efficient gettering by taking advantage of the increasing supersaturation of impurities as temperatures are reduced. It is found that the anneals affect the CL efficiency through several different mechanisms and that annealing under "dirty" conditions does not introduce significant amounts of electrically active impurities into the material. In order to aid the interpretation of experimental results, modelling of the effect of different sample parameters on CL is carried out. Using this theoretical work, an experimental method of measuring ...
AbstractTime-resolved photoluminescence (TRPL) is used to evaluate the injection-dependent effective...
This work was motivated by the large impact of the electrical material quality on the performance of...
The carrier lifetime is very sensitive to electrically active defects. Since the recombination activ...
The effect of low-temperature anneals (≤500 °C) on Cz-Si minority carrier lifetime has been investig...
The effect of low temperature anneals (≤500C) on Cz-Si minority carrier lifetime has been investigat...
A valuable nondestructive measurement and analysis method for determining individual excess carrier ...
Cathodoluminescence is used to investigate the phenomenon of relatively efficient band-to-band lumin...
We report a systematic study into the effects of long low temperature (≤500 °C) annealing on the lif...
Experimental results for a new method of measuring the minority carrier lifetime as a process contro...
Experimental results for a new method of measuring the minority carrier lifetime as a process contro...
Multicrystalline silicon (mc-Si) substrates are widely used for photovoltaic cells. The minority car...
In this study, we investigate the nature of some recombination active defects limiting the lifetime ...
A novel measurement and analysis method of determining individual excess carrier lifetimes in multil...
Quasi-steady-state photoluminescence is a versatile technique to determine carrier lifetime in silic...
Recombination lifetime and diffusion length measured with the photoconductance d cay and surface pho...
AbstractTime-resolved photoluminescence (TRPL) is used to evaluate the injection-dependent effective...
This work was motivated by the large impact of the electrical material quality on the performance of...
The carrier lifetime is very sensitive to electrically active defects. Since the recombination activ...
The effect of low-temperature anneals (≤500 °C) on Cz-Si minority carrier lifetime has been investig...
The effect of low temperature anneals (≤500C) on Cz-Si minority carrier lifetime has been investigat...
A valuable nondestructive measurement and analysis method for determining individual excess carrier ...
Cathodoluminescence is used to investigate the phenomenon of relatively efficient band-to-band lumin...
We report a systematic study into the effects of long low temperature (≤500 °C) annealing on the lif...
Experimental results for a new method of measuring the minority carrier lifetime as a process contro...
Experimental results for a new method of measuring the minority carrier lifetime as a process contro...
Multicrystalline silicon (mc-Si) substrates are widely used for photovoltaic cells. The minority car...
In this study, we investigate the nature of some recombination active defects limiting the lifetime ...
A novel measurement and analysis method of determining individual excess carrier lifetimes in multil...
Quasi-steady-state photoluminescence is a versatile technique to determine carrier lifetime in silic...
Recombination lifetime and diffusion length measured with the photoconductance d cay and surface pho...
AbstractTime-resolved photoluminescence (TRPL) is used to evaluate the injection-dependent effective...
This work was motivated by the large impact of the electrical material quality on the performance of...
The carrier lifetime is very sensitive to electrically active defects. Since the recombination activ...
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