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Meeting

MS&T25: Materials Science & Technology

Symposium

Glasses and Optical Materials: Challenges, Advances, and Applications

Presentation Title

Short and medium range structures of binary GeO₂-SiO₂ glasses from molecular dynamic simulations

Author(s)

Navid Marchin, Jincheng Du

On-Site Speaker (Planned)

Navid Marchin

Abstract Scope

This study explores the structural properties of mixed silica-germania glasses, which find wide applications in microelectronics and optoelectronics, by using molecular dynamics (MD) simulations. After validating the germanium related potential parameters, the short and medium-range structural features across the binary glass range were investigated. The results show that Ge-O bond distance is 1.71 Å and germanium maintains four-fold coordination in all the glasses. The [GeO₄] tetrahedra are slightly more distorted as compared to silica while the intertetrahedral angle distributions become narrower with increasing GeO₂. GeO₂-rich glasses exhibit broader ring size distributions. [SiO₄] and [GeO₄] tetrahedrons are randomly mixed forming a continuous random network. Comparison of the simulated glass structures with results from experiments such as neutron diffraction, solid state NMR and Raman spectroscopy showed good agreements, validating the structural model from MD simulations.

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