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Paper detail

Picosecond strain dynamics in Ge$_{2}$Sb$_{2}$Te$_{5}$ monitored by time-resolved x-ray diffraction

Coherent phonons (CP) generated by laser pulses on the femtosecond scale have been proposed as a means to achieve ultrafast, non-thermal switching in phase-change materials such as Ge$_{2}$Sb$_{2}$Te$_{5}$(GST). Here we use ultrafast optical pump pulses to induce coherent acoustic phonons and stroboscopically measure the corresponding lattice distortions in GST using 100 ps x-ray pulses from the ESRF storage ring. A linear-chain model provides a good description of the observed changes in the diffraction signal, however, the magnitudes of the measured shifts are too large to be explained by thermal effects alone implying the presence of transient non-equilibrium electron heating in addition to temperature driven expansion. The information on the movement of atoms during the excitation process can lead to greater insight into the possibilities of using CP-induced phase-transitions in GST.

preprint2014arXivOpen access
Paul FonsPeter RodenbachKirill V. MitrofanovAlexander V. KolobovJunji TominagaRoman ShaydukAlessandro GiussaniRaffaella CalarcoMichael HankeHenning RiechertRobert E. SimpsonMuneaki Hase
cond-mat.mtrl-sci
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Authors

Paul FonsPeter RodenbachKirill V. MitrofanovAlexander V. KolobovJunji TominagaRoman ShaydukAlessandro GiussaniRaffaella CalarcoMichael HankeHenning RiechertRobert E. SimpsonMuneaki Hase

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