6533b834fe1ef96bd129de70
RESEARCH PRODUCT
First-principles study of the amorphous In3SbTe2phase change compound
Jan H. LosThomas D. KühneS. GabardiMarco Bernasconisubject
QuenchingRange (particle radiation)Materials scienceTernary numeral systemCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsAmorphous solidCrystallographychemistry.chemical_compoundPhase changechemistryTernary compoundPhase (matter)Density functional theorydescription
Ab initio molecular dynamics simulations based on density functional theory were performed to generate amorphous models of the phase change compound In${}_{3}$SbTe${}_{2}$ by quenching from the melt. In-Sb and In-Te are the most abundant bonds with only a minor fraction of Sb-Te bonds. The bonding geometry in the amorphous phase is, however, strongly dependent on the density in the range 6.448--5.75 g/cm${}^{3}$ that we investigated. While at high density the bonding geometry of In atoms is mostly octahedral-like as in the cubic crystalline phase of the ternary compound In${}_{3}$SbTe${}_{2}$, at low density we observed a sizable fraction of tetrahedral-like geometries similar to those present in the crystalline phase of the two binary compounds InTe and InSb that the ternary system can be thought to be made of. We show that the different ratio between octahedral-like and tetrahedral-like bonding geometries has fingerprints in the optical and vibrational spectra.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2013-11-18 | Physical Review B |