Accession Number:

ADP012315

Title:

Exploring the Limits of Fast Phase Change Materials

Descriptive Note:

Conference proceedings

Corporate Author:

TECHNISCHE HOCHSCHULE AACHEN (GERMANY F R) PHYSIKALISCHES INST (I)

Report Date:

2001-04-01

Pagination or Media Count:

6.0

Abstract:

In the last decade a number of chalcogenide alloys, including ternary alloys of GeSbTe and quaternary alloys of InAgSbTe, have been identified which enable fast phase change recording. In the quest for materials with improved phase change kinetics we present two different approaches. By comparing alloys with well-defined stoichiometries the mechanisms which govern the transformation kinetics are determined. Optical and electrical measurements determine the activation energy for crystallization to 2.24 - 0.11 eV for Oe2Sb2Te5 and to 3.71 - 0.07 eV for Ge4Sb1Te5. respectively. It is shown that for GeSbTe-alloys with different composition the activation energy increases linearly with increasing Ge content. Power-time-reflectivity change diagrams recorded with a static tester reveal that Ge2Sb2Te5, in agreement with previous data, recrystallizes by the growth of sub critical nuclei, while Ge4Sb1Te5 grows from the crystalline rim surrounding the bit. To speed up the search for faster materials we employ concepts of combinatorial material synthesis by producing films with a stoichiometry gradient. Then laterally resolved secondary neutral mass spectroscopy SNMS combined with the static tester are used to identify the composition with superior properties for phase change applications.

Subject Categories:

  • Properties of Metals and Alloys
  • Crystallography
  • Electricity and Magnetism
  • Solid State Physics

Distribution Statement:

APPROVED FOR PUBLIC RELEASE