Machine learning refractive index model and nitrogen implantation studies of zinc arsenic tellurite glasses

The first time machine learning-based refractive index model proposed based on the density parameter using a glass dataset of 2000 oxide glass samples to predict refractive index of the xZnF 2 -(20-x)ZnO-40As 2 O340TeO 2 . The study uses various machine learning techniques such as gradient decent, a...

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Bibliographic Details
Published in:Journal of the Australian Ceramic Society 2023-12, Vol.59 (5), p.1443-1452
Main Authors: Ahmmad, Shaik Kareem, Nataraju, G., Siddiqui, Nazima, Ahmed, Mohammed Muzammil, Rizwan, M. A. Haleem, Ahmed, Mohamad Raheem, Prasad, A. S. Sai
Format: Article
Language:English
Subjects:
Ceramics
Chemistry and Materials Science
Composites
Glass
Inorganic Chemistry
Materials Engineering
Materials Science
Natural Materials
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Summary:The first time machine learning-based refractive index model proposed based on the density parameter using a glass dataset of 2000 oxide glass samples to predict refractive index of the xZnF 2 -(20-x)ZnO-40As 2 O340TeO 2 . The study uses various machine learning techniques such as gradient decent, artificial neural network, and random forest regression to predict the refractive index and density of glasses. The random forest regression (RFR) model is found to be the most effective with a maximum R 2 value of 0.950 in the case of refractive index prediction and 0.926 for density prediction. The study also investigates the effects of nitrogen ion implantation on the glasses, finding that increased nitrogen dose causes a reduction in density and an increase in refractive index. The glass transition temperature decreases with increased nitrogen dose, possibly due to implantation defects. However, the glass stability increases with increasing implantation dose for low and high fluorine content glasses, likely due to the development of band gap defect levels and an increase in carrier concentration.
ISSN:2510-1560
2510-1579
DOI:10.1007/s41779-023-00928-1