GeSbTe (GST) phase-change alloys feature layered crystalline structures made of lamellae separated by van der Waals (vdW) gaps. This work sheds light on the dependence of interlamellae interactions at the vdW gap on film thickness of GST alloys as probed by vibrational spectroscopy. Molecular beam epitaxy is used for designing GST layers down to a single lamella. By combining density-functional theory and Raman spectroscopy, a direct and simple method is demonstrated to identify the thickness of the GST film. The shift of the vibrational modes is studied as a function of the layer size, and the low-frequency range opens up a new route to probe the number of lamellae for different GST compositions. Comparison between experimental and theoretical Raman spectra highlights the precision growth control obtained by the epitaxial technique.

Zallo, E., Dragoni, D., Zaytseva, Y., Cecchi, S., Borgardt, N., Bernasconi, M., et al. (2021). Evolution of Low-Frequency Vibrational Modes in Ultrathin GeSbTe Films. PHYSICA STATUS SOLIDI. RAPID RESEARCH LETTERS, 15(3 (March 2021)) [10.1002/pssr.202000434].

Evolution of Low-Frequency Vibrational Modes in Ultrathin GeSbTe Films

Dragoni D.;Cecchi S.;Bernasconi M.;
2021

Abstract

GeSbTe (GST) phase-change alloys feature layered crystalline structures made of lamellae separated by van der Waals (vdW) gaps. This work sheds light on the dependence of interlamellae interactions at the vdW gap on film thickness of GST alloys as probed by vibrational spectroscopy. Molecular beam epitaxy is used for designing GST layers down to a single lamella. By combining density-functional theory and Raman spectroscopy, a direct and simple method is demonstrated to identify the thickness of the GST film. The shift of the vibrational modes is studied as a function of the layer size, and the low-frequency range opens up a new route to probe the number of lamellae for different GST compositions. Comparison between experimental and theoretical Raman spectra highlights the precision growth control obtained by the epitaxial technique.
Articolo in rivista - Articolo scientifico
2D materials; first principles; molecular beam epitaxy; phase-change materials; Raman;
English
28-ott-2020
2021
15
3 (March 2021)
2000434
open
Zallo, E., Dragoni, D., Zaytseva, Y., Cecchi, S., Borgardt, N., Bernasconi, M., et al. (2021). Evolution of Low-Frequency Vibrational Modes in Ultrathin GeSbTe Films. PHYSICA STATUS SOLIDI. RAPID RESEARCH LETTERS, 15(3 (March 2021)) [10.1002/pssr.202000434].
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