Raman characterization and stress analysis of AlN:Er3+ epilayers grown on sapphire and silicon substrates

•The wurtzite structure of AlN:Er3+ was confirmed.•A Raman spectra comparison of AlN:Er3+ grown on different substrates was performed.•AlN:Er3+ grown on silicon substrate exhibits a high structural quality.•The biaxial stress in AlN:Er3+ thin films was studied.•Temperature variation of E2(high) Rama...

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Bibliographic Details
Published in:Materials science & engineering. B, Solid-state materials for advanced technology Solid-state materials for advanced technology, 2014-09, Vol.187, p.46-52
Main Authors: Kallel, T., Dammak, M., Wang, J., Jadwisienczak, W.M.
Format: Article
Language:English
Subjects:
Annealing
Compressive properties
Ion implantation
Materials science
Nitride
Raman spectroscopy
Sapphire
Semiconducting III–V materials
Silicon substrates
Stress
Stress analysis
Stresses
Temperature dependence
Thin films
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Summary:•The wurtzite structure of AlN:Er3+ was confirmed.•A Raman spectra comparison of AlN:Er3+ grown on different substrates was performed.•AlN:Er3+ grown on silicon substrate exhibits a high structural quality.•The biaxial stress in AlN:Er3+ thin films was studied.•Temperature variation of E2(high) Raman frequency and linewidth was established using a theoretical model. Raman spectra and resulting stress analyses were performed for two sets of erbium implanted aluminum nitride (AlN:Er3+) epilayers deposited by molecular-beam epitaxy (MBE) on (0001) sapphire and (111) silicon substrates. The AlN:Er3+ epilayers were examined using Raman scattering at different temperatures revealing the presence of the allowed E2(high) and A1(LO) phonon modes. The E2(high) mode linewidths reflect the best qualities of the implanted and thermally annealed epilayers grown on silicon substrates compared with those grown on sapphire substrates. It was observed that relatively tensile stress existed in AlN:Er3+ epilayer grown on sapphire in contrast to a compressive stress present in the AlN:Er3+ epilayer grown on silicon as indicated by the observed E2(high) mode frequency shift and the broadening of the vibrational mode linewidth. The stress value was calculated. The temperature dependence of the E2(high) frequency and linewidth for the AlN:Er3+ epilayer grown on sapphire were theoretically modeled.
ISSN:0921-5107
1873-4944
DOI:10.1016/j.mseb.2014.04.003