What Makes Phase-Change Chalcogenide Alloys Materials of Choice for Optical Data Storage

Abstract We discuss specific structural properties of commercially used Te-based multicomponent phase-change alloys that make them materials of choice for memory applications. In particular, we suggest that presence of longer and shorter bonds between similar kinds of atoms in the crystalline state...
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Autor*in:	Kolobov, Alexander [verfasserIn] Fons, Paul [verfasserIn] Tominaga, Junji [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2006

Übergeordnetes Werk:	Enthalten in: MRS online proceedings library - Warrendale, Pa. : MRS, 1998, 918(2006), 1 vom: 01. Juli
Übergeordnetes Werk:	volume:918 ; year:2006 ; number:1 ; day:01 ; month:07

Links:	Volltext

DOI / URN:	10.1557/PROC-0918-H04-05

Katalog-ID:	SPR042397014

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abstract	Abstract We discuss specific structural properties of commercially used Te-based multicomponent phase-change alloys that make them materials of choice for memory applications. In particular, we suggest that presence of longer and shorter bonds between similar kinds of atoms in the crystalline state and the (shorter) bond lengths being significantly longer that the sum of covalent radii of the corresponding atoms are crucial for efficient switching between the crystalline and amorphous state.
abstractGer	Abstract We discuss specific structural properties of commercially used Te-based multicomponent phase-change alloys that make them materials of choice for memory applications. In particular, we suggest that presence of longer and shorter bonds between similar kinds of atoms in the crystalline state and the (shorter) bond lengths being significantly longer that the sum of covalent radii of the corresponding atoms are crucial for efficient switching between the crystalline and amorphous state.
abstract_unstemmed	Abstract We discuss specific structural properties of commercially used Te-based multicomponent phase-change alloys that make them materials of choice for memory applications. In particular, we suggest that presence of longer and shorter bonds between similar kinds of atoms in the crystalline state and the (shorter) bond lengths being significantly longer that the sum of covalent radii of the corresponding atoms are crucial for efficient switching between the crystalline and amorphous state.
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title_short	What Makes Phase-Change Chalcogenide Alloys Materials of Choice for Optical Data Storage
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