Integrated measurement of the actual and small perturbation lifetimes with improved accuracy

We have integrated the two main photoconductance decay (PCD) carrier lifetime measurement methods into one setup. This allows us to record both the actual carrier lifetime τa and differential lifetime τd in the function of injection level Δn. The two methods complement each other in terms of advanta...

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Hauptverfasser:	Krisztián, Dávid, Korsós, Ferenc, Kis, Enikő, Paráda, Gábor, Tüttő, Péter
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Accuracy Carrier lifetime Carrier mobility Diffusion effects Error analysis Lifetime Light beams Measurement methods Optical properties Perturbation Photovoltaic cells Solar cells Systematic errors
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creator	Krisztián, Dávid Korsós, Ferenc Kis, Enikő Paráda, Gábor Tüttő, Péter
description	We have integrated the two main photoconductance decay (PCD) carrier lifetime measurement methods into one setup. This allows us to record both the actual carrier lifetime τa and differential lifetime τd in the function of injection level Δn. The two methods complement each other in terms of advantages. While the transient photoconductance (transient PC) is a very fast measurement not impacted by the optical properties of the given sample, the small-perturbation PCD (SP-PCD) method is insensitive to sensor calibration issues, conductive layers, and does not rely on carrier mobility models. For proper measuring conditions, all parameters of the measurement setup were optimized aiming the accurate carrier lifetime measurement of modern solar cell structures featuring continuously improving performance. The optics were designed to cover a large area, very homogenous spot of the steady-state and pulsed light beams to avoid the lateral diffusion effect. Both evaluation methods were critically reviewed and the systematic error caused by lateral diffusion was investigated with computer simulations. Using the optimized integrated setup and corrected evaluation methods, consistent agreement between the recoded τa(Δn) curves was found, which confirms the accuracy of the reported values and the reliability of measuring τa with the setup.
doi_str_mv	10.1063/5.0141149
format	Conference Proceeding
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This allows us to record both the actual carrier lifetime τa and differential lifetime τd in the function of injection level Δn. The two methods complement each other in terms of advantages. While the transient photoconductance (transient PC) is a very fast measurement not impacted by the optical properties of the given sample, the small-perturbation PCD (SP-PCD) method is insensitive to sensor calibration issues, conductive layers, and does not rely on carrier mobility models. For proper measuring conditions, all parameters of the measurement setup were optimized aiming the accurate carrier lifetime measurement of modern solar cell structures featuring continuously improving performance. The optics were designed to cover a large area, very homogenous spot of the steady-state and pulsed light beams to avoid the lateral diffusion effect. Both evaluation methods were critically reviewed and the systematic error caused by lateral diffusion was investigated with computer simulations. Using the optimized integrated setup and corrected evaluation methods, consistent agreement between the recoded τa(Δn) curves was found, which confirms the accuracy of the reported values and the reliability of measuring τa with the setup.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/5.0141149</doi><tpages>6</tpages></addata></record>
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source	AIP Journals Complete
subjects	Accuracy Carrier lifetime Carrier mobility Diffusion effects Error analysis Lifetime Light beams Measurement methods Optical properties Perturbation Photovoltaic cells Solar cells Systematic errors
title	Integrated measurement of the actual and small perturbation lifetimes with improved accuracy
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