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Ultrafast Infrared Laser Crystallization of Amorphous Si/Ge Multilayer Structures.

Alexander V BulgakovJiří BeránekVladimir A VolodinYuzhu ChengYoann LevySiva S NagisettyMartin ZukersteinAlexander A PopovNadezhda M Bulgakova
Published in: Materials (Basel, Switzerland) (2023)
Silicon-germanium multilayer structures consisting of alternating Si and Ge amorphous nanolayers were annealed by ultrashort laser pulses at near-infrared (1030 nm) and mid-infrared (1500 nm) wavelengths. In this paper, we investigate the effects of the type of substrate (Si or glass), and the number of laser pulses (single-shot and multi-shot regimes) on the crystallization of the layers. Based on structural Raman spectroscopy analysis, several annealing regimes were revealed depending on laser fluence, including partial or complete crystallization of the components and formation of solid Si-Ge alloys. Conditions for selective crystallization of germanium when Si remains amorphous and there is no intermixing between the Si and Ge layers were found. Femtosecond mid-IR laser annealing appeared to be particularly favorable for such selective crystallization. Similar crystallization regimes were observed for both single-shot and multi-shot conditions, although at lower fluences and with a lower selectivity in the latter case. A theoretical analysis was carried out based on the laser energy absorption mechanisms, thermal stresses, and non-thermal effects.
Keyphrases
  • room temperature
  • high speed
  • raman spectroscopy
  • high resolution
  • photodynamic therapy
  • structural basis
  • energy transfer