Fragility of Ge-As-Se glass-forming liquids in relation to rigidity percolation, and the Kauzmann paradox

M. Tatsumisago; B. L. Halfpap; J. L. Green; S. M. Lindsay; C. A. Angell

doi:10.1103/PhysRevLett.64.1549

Fragility of Ge-As-Se glass-forming liquids in relation to rigidity percolation, and the Kauzmann paradox

M. Tatsumisago, B. L. Halfpap, J. L. Green, S. M. Lindsay, C. A. Angell

Physics and Astronomy

Arizona State University

Research output: Contribution to journal › Article › peer-review

325 Scopus citations

Abstract

The concept of mean-field rigidity percolation at average coordination number r=2.4 in covalently bonded inorganic glasses is shown to be relevant to the liquid-state behavior of glass-forming chalcogenide systems. In particular it correlates with remarkable variations in fragility and excess heat capacity which we observe in the model ternary system Ge-As-Se. Except near As2Se3, Tg itself depends only on r anywhere in the system up to r=2.5. These findings provide an important link between key structural concepts of glass science, the relaxation phenomena, and the thermodynamic problem embodied in the Kauzmann paradox.

Original language	English
Pages (from-to)	1549-1552
Number of pages	4
Journal	Physical Review Letters
Volume	64
Issue number	13
DOIs	https://doi.org/10.1103/PhysRevLett.64.1549
State	Published - 1990

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abstract = "The concept of mean-field rigidity percolation at average coordination number r=2.4 in covalently bonded inorganic glasses is shown to be relevant to the liquid-state behavior of glass-forming chalcogenide systems. In particular it correlates with remarkable variations in fragility and excess heat capacity which we observe in the model ternary system Ge-As-Se. Except near As2Se3, Tg itself depends only on r anywhere in the system up to r=2.5. These findings provide an important link between key structural concepts of glass science, the relaxation phenomena, and the thermodynamic problem embodied in the Kauzmann paradox.",

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AU - Green, J. L.

AU - Lindsay, S. M.

AU - Angell, C. A.

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AB - The concept of mean-field rigidity percolation at average coordination number r=2.4 in covalently bonded inorganic glasses is shown to be relevant to the liquid-state behavior of glass-forming chalcogenide systems. In particular it correlates with remarkable variations in fragility and excess heat capacity which we observe in the model ternary system Ge-As-Se. Except near As2Se3, Tg itself depends only on r anywhere in the system up to r=2.5. These findings provide an important link between key structural concepts of glass science, the relaxation phenomena, and the thermodynamic problem embodied in the Kauzmann paradox.

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ER -

Fragility of Ge-As-Se glass-forming liquids in relation to rigidity percolation, and the Kauzmann paradox

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