Temperature-Induced Four-Fold-on-Six-Fold Symmetric Heteroepitaxy, Rocksalt SmN on Hexagonal AlN

We report on the occurrence of rotational domains involving 4-fold symmetric epitaxy on a hexagonal net, a rare case in the literature. A temperature-driven crossover from fully (111)- to (001)-oriented samarium nitride grown by molecular beam epitaxy on hexagonal (0001) aluminum nitride is observed...

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Veröffentlicht in:	Crystal growth & design 2016-11, Vol.16 (11), p.6454-6460
Hauptverfasser:	Chan, Jay R, Vézian, Stéphane, Trodahl, Joe, Khalfioui, Mohamed Al, Damilano, Benjamin, Natali, Franck
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creator	Chan, Jay R Vézian, Stéphane Trodahl, Joe Khalfioui, Mohamed Al Damilano, Benjamin Natali, Franck
description	We report on the occurrence of rotational domains involving 4-fold symmetric epitaxy on a hexagonal net, a rare case in the literature. A temperature-driven crossover from fully (111)- to (001)-oriented samarium nitride grown by molecular beam epitaxy on hexagonal (0001) aluminum nitride is observed by means of in situ reflection high energy electron diffraction, scanning tunnelling microscopy studies, and ex situ X-ray diffraction. Using an especially rich set of growth conditions and nitrogen precursors, we observe the key role played by the growth kinetics, with a strong thermal cracking of the ammonia source and a re-evaporation of Sm adatoms occurring in the same temperature range of the orientation crossover.
doi_str_mv	10.1021/acs.cgd.6b01133
format	Article
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title	Temperature-Induced Four-Fold-on-Six-Fold Symmetric Heteroepitaxy, Rocksalt SmN on Hexagonal AlN
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