A possible mechanism of ultrafast amorphization in phase-change memory alloys: an ion slingshot from the crystalline to amorphous position

2); (2) CNRS Montpellier France; (3) JST; 4); (4) RRC Kurchatov Institute; A. S. Mishchenko (3; A. V. Kolobov (1; Japan; J. Tominaga (1) ((1) AIST; Moscow

arxiv: 0803.2127 · v1 · submitted 2008-03-14 · ❄️ cond-mat.mtrl-sci

A possible mechanism of ultrafast amorphization in phase-change memory alloys: an ion slingshot from the crystalline to amorphous position

A. V. Kolobov (1 , 2) , A. S. Mishchenko (3 , 4) , P. Fons (1) , S.M. Yakubenya (4) , J. Tominaga (1) ((1) AIST , Tsukuba

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Japan (2) CNRS Montpellier France (3) JST (4) RRC Kurchatov Institute Moscow Russia)

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classification ❄️ cond-mat.mtrl-sci

keywords crystallinealloysamorphousbondsforcememoryphasephase-change

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We propose that the driving force of an ultrafast crystalline-to-amorphous transition in phase-change memory alloys are strained bonds existing in the (metastable) crystalline phase. For the prototypical example of GST, we demonstrate that upon breaking of long Ge-Te bond by photoexcitation Ge ion shot from an octahedral crystalline to a tetrahedral amorphous position by the uncompensated force of strained short bonds. Subsequent lattice relaxation stabilizes the tetrahedral surroundings of the Ge atoms and ensures the long-term stability of the optically induced phase.

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A possible mechanism of ultrafast amorphization in phase-change memory alloys: an ion slingshot from the crystalline to amorphous position

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