M. Ribes scite author profile

We report on an inelastic (Raman) light scattering study of the local structure of amorphous GeTe films. A detailed analysis of the temperature-reduced Raman spectra has shown that appreciable structural changes occur as a function of temperature. These changes involve modifications of atomic arrangements such as to facilitate the rapid amorphous-to-crystal transformation, which is the major advantage of phase-change materials used in optical data storage media. A particular structural model, supported by polarization analysis, is proposed being compatible with the experimental data as regards both the structure of a-GeTe and the crystallization transition. The remarkable difference between the Raman spectrum of the crystal and the glass can thus naturally be accounted for.

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Sulfide glasses: Glass forming region, structure and ionic conduction of glasses in Na2SXS2 (XSi; Ge), Na2SP2S5 and Li2SGeS2 systems

Ribes

Barrau

Souquet

1980

Journal of Non-Crystalline Solids

169

102

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The characterization of waste cathode-ray tube glass

et al. 2006

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Pressure-Induced Site-Selective Disordering ofGe2Sb2Te5: A New Insight into Phase-Change Optical Recording

et al. 2006

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We demonstrate that , the material of choice in phase-change optical recording (such as DVD-RAM), can be rendered amorphous by the application of hydrostatic pressure. It is argued that this structural change is due to a very strong second-nearest-neighbor Te-Te interaction that determines the long-range order in the metastable cubic phase of and also to the presence of vacancies. This newly discovered phenomenon suggests that pressure is an important factor for the formation of the amorphous phase which opens new insight into the mechanism of phase-change optical recording.

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M. Ribes

Raman scattering study of the a-GeTe structure and possible mechanism for the amorphous to crystal transition

Sulfide glasses: Glass forming region, structure and ionic conduction of glasses in Na2SXS2 (XSi; Ge), Na2SP2S5 and Li2SGeS2 systems

The characterization of waste cathode-ray tube glass

Pressure-Induced Site-Selective Disordering ofGe2Sb2Te5: A New Insight into Phase-Change Optical Recording

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