Add to ORKGWe present spectacular evidence of metallization of amorphous Ge films under high pressure using optical micrographs and Raman-scattering and x-ray-absorption spectroscopies. This transformation is identified as a low-density amorphous LDA to high-density amorphous HDA transition, relevant to a large class of systems including amorphous ice, semiconductors, and oxides. We have discovered that this transition initiates at the surface of the LDA sample, characterized intrinsically by a thickness dependent density of voids. Contrary to the case of transitions involving stable crystalline solid phases, our observations show that pressure-induced phase transitions in inhomogeneous amorphous samples are morphology driven and are favored for lower...
Combination of porosity and hydrostaticity during compression is used with a view to explore the ene...
The low-density (LDA) to high-density (HDA) transformation in amorphous Ge at high pressure is studi...
Phase-change materials, the highly promising candidate for nonvolatile data recording, present a dif...
We present spectacular evidence of metallization of amorphous Ge films under high pressure using opt...
International audienceA detailed study of the pressure-induced phase transitions in amorphous Ge a-G...
International audienceIn this work, we address the question of pressure-induced phase transitions in...
Cette thèse présente des mesures de spectroscopie Raman, d'absorption des rayons X et de diffraction...
The structural transformations during the pressure induced semiconductor to metal transition [1,2] i...
Amorphous germanium (a-Ge) structure is known to show a complex behavior upon pressurization. Here a...
Amorphous materials are not new to scientists and mankind -- man has been using glass and glassy mat...
Amorphous germanium (a-Ge) structure is known to show a complex behavior upon pressurization. Here a...
temperatures, under high pressures and at ambient conditions. Combined EXAFS and powder diffraction ...
Chalcogenide glasses with tetrahedral networks can undergo significant densification under pressure ...
A high-pressure synchrotron x-ray diffraction study of the phase change alloy Ge₁Sb₂Te₄ demonstrates...
Pressure-induced amorphization (PIA) is a phenomenon that involves an abrupt transition between a cr...
Combination of porosity and hydrostaticity during compression is used with a view to explore the ene...
The low-density (LDA) to high-density (HDA) transformation in amorphous Ge at high pressure is studi...
Phase-change materials, the highly promising candidate for nonvolatile data recording, present a dif...
We present spectacular evidence of metallization of amorphous Ge films under high pressure using opt...
International audienceA detailed study of the pressure-induced phase transitions in amorphous Ge a-G...
International audienceIn this work, we address the question of pressure-induced phase transitions in...
Cette thèse présente des mesures de spectroscopie Raman, d'absorption des rayons X et de diffraction...
The structural transformations during the pressure induced semiconductor to metal transition [1,2] i...
Amorphous germanium (a-Ge) structure is known to show a complex behavior upon pressurization. Here a...
Amorphous materials are not new to scientists and mankind -- man has been using glass and glassy mat...
Amorphous germanium (a-Ge) structure is known to show a complex behavior upon pressurization. Here a...
temperatures, under high pressures and at ambient conditions. Combined EXAFS and powder diffraction ...
Chalcogenide glasses with tetrahedral networks can undergo significant densification under pressure ...
A high-pressure synchrotron x-ray diffraction study of the phase change alloy Ge₁Sb₂Te₄ demonstrates...
Pressure-induced amorphization (PIA) is a phenomenon that involves an abrupt transition between a cr...
Combination of porosity and hydrostaticity during compression is used with a view to explore the ene...
The low-density (LDA) to high-density (HDA) transformation in amorphous Ge at high pressure is studi...
Phase-change materials, the highly promising candidate for nonvolatile data recording, present a dif...