Diffusivity analysis of POCl3 emitter SIMS profiles for semi empirical parametrization in sentaurus process

Micard, Gabriel; Dastgheib-Shirazi, Amir; Raabe, Bernd; Hahn, Giso

Diffusivity analysis of POCl3 emitter SIMS profiles for semi empirical parametrization in sentaurus process

Dateien

Micard_185021.pdfGröße: 338.79 KBDownloads: 248

Datum

2011

Open Access-Veröffentlichung

Open Access Green

Sammlungen

Physik

Publikationstyp

Beitrag zu einem Konferenzband

Publikationsstatus

Published

Erschienen in

OSSENBRINK, H., ed. and others. Proceedings of the 26th European Photovoltaic Solar Energy Conference and Exhibition : the most inspiring platform for the global PV solar sector. Munich, Germany: WIP-Renewable Energies, 2011, pp. 1446-1450. ISBN 3-936338-27-2. Available under: doi: 10.4229/26thEUPVSEC2011-2BV.2.16

Zusammenfassung

The diffusion of phosphorus mediated by phosphorus oxychloride (POCl3) is extensively used in photovoltaics due to its higher controllability over phosphine. However, the POCl3 decomposition in the gas phase as well as the subsequent oxidation reaction between silicon and the resulting phosphorus oxide are not very well documented and increase the complexity of a realistic simulation of the POCl3 diffusion. This paper examines the possibility of modeling the POCl3 diffusion only by modifying the diffusion constants of a standard phosphine mediated diffusion simulation implemented in Sentaurus process. To this aim, the Boltzmann-Mattano Analysis (BMA) is applied to experimental SIMS profiles in order to extract a concentration dependent effective phosphorus diffusivity. The fitting of diffusivity profiles is then performed to determine the specific diffusion constants of the diffusion mechanisms believed to be responsible for the phosphorus diffusion in silicon. Through the study of specific artifacts appearing in the diffusivity profile because of the non ideal conditions for application of the BMA, it is believed that at low POCl3 flow, the surface concentration during the pre-deposition phase is low enough to induce an enhanced diffusivity at the early stage of the diffusion. Finally, the assumptions of this diffusivity fitting are reviewed and a model matching these assumptions is identified in Sentaurus Process for a direct implementation of the BMA results into Sentaurus Process.

Fachgebiet (DDC)

530 Physik

Schlagwörter

Diffusion, Doping, Modelling / Modeling

Konferenz

26th European Photovoltaic Solar Energy Conference and Exhibition, 5. Sep. 2011 - 9. Sep. 2011, Hamburg, Germany

Zitieren

ISO 690

MICARD, Gabriel, Amir DASTGHEIB-SHIRAZI, Bernd RAABE, Giso HAHN, 2011. Diffusivity analysis of POCl3 emitter SIMS profiles for semi empirical parametrization in sentaurus process. 26th European Photovoltaic Solar Energy Conference and Exhibition. Hamburg, Germany, 5. Sep. 2011 - 9. Sep. 2011. In: OSSENBRINK, H., ed. and others. Proceedings of the 26th European Photovoltaic Solar Energy Conference and Exhibition : the most inspiring platform for the global PV solar sector. Munich, Germany: WIP-Renewable Energies, 2011, pp. 1446-1450. ISBN 3-936338-27-2. Available under: doi: 10.4229/26thEUPVSEC2011-2BV.2.16

BibTex

@inproceedings{Micard2011Diffu-18502,
  year={2011},
  doi={10.4229/26thEUPVSEC2011-2BV.2.16},
  title={Diffusivity analysis of POCl3 emitter SIMS profiles for semi empirical parametrization in sentaurus process},
  isbn={3-936338-27-2},
  publisher={WIP-Renewable Energies},
  address={Munich, Germany},
  booktitle={Proceedings of the 26th European Photovoltaic Solar Energy Conference and Exhibition : the most inspiring platform for the global PV solar sector},
  pages={1446--1450},
  editor={Ossenbrink, H.},
  author={Micard, Gabriel and Dastgheib-Shirazi, Amir and Raabe, Bernd and Hahn, Giso}
}

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    <dcterms:abstract xml:lang="eng">The diffusion of phosphorus mediated by phosphorus oxychloride (POCl3) is extensively used in photovoltaics due to its higher controllability over phosphine. However, the POCl3 decomposition in the gas phase as well as the subsequent oxidation reaction between silicon and the resulting phosphorus oxide are not very well documented and increase the complexity of a realistic simulation of the POCl3 diffusion. This paper examines the possibility of modeling the POCl3 diffusion only by modifying the diffusion constants of a standard phosphine mediated diffusion simulation implemented in Sentaurus process. To this aim, the Boltzmann-Mattano Analysis (BMA) is applied to experimental SIMS profiles in order to extract a concentration dependent effective phosphorus diffusivity. The fitting of diffusivity profiles is then performed to determine the specific diffusion constants of the diffusion mechanisms believed to be responsible for the phosphorus diffusion in silicon. Through the study of specific artifacts appearing in the diffusivity profile because of the non ideal conditions for application of the BMA, it is believed that at low POCl3 flow, the surface concentration during the pre-deposition phase is low enough to induce an enhanced diffusivity at the early stage of the diffusion. Finally, the assumptions of this diffusivity fitting are reviewed and a model matching these assumptions is identified in Sentaurus Process for a direct implementation of the BMA results into Sentaurus Process.</dcterms:abstract>
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