Artículo
A view of the implanted SiC damage by Rutherford backscattering spectroscopy, spectroscopic ellipsometry, and transmission electron microscopy
Autor/es | Battistig, G.
Khánh, N. Q. Petrik, P. Lohner, T. Dobos, L. Pécz, B. García López, Francisco Javier Morilla García, Yolanda |
Departamento | Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear |
Fecha de publicación | 2006 |
Fecha de depósito | 2019-10-25 |
Resumen | 4H-SiC single crystalline substrates were implanted at room temperature with 150 keV Al+ ions
using fluences of 4 1014, 1 1015, and 2 1015 cm−2 with current density of 2.5 A cm−2. The
samples were subsequently annealed ... 4H-SiC single crystalline substrates were implanted at room temperature with 150 keV Al+ ions using fluences of 4 1014, 1 1015, and 2 1015 cm−2 with current density of 2.5 A cm−2. The samples were subsequently annealed at 1100 °C in N2 for 1 h in order to analyze their structural recovery. The disorder induced in both sublattices by the Al+ ions was studied by backscattering spectrometry in channeling geometry with a 3.5 MeV He2+ beam. The results were compared with the optical properties of the samples measured by spectroscopic ellipsometry. In a previous work, we concluded that during the postimplantation annealing of a highly damaged SiC crystalline material the short distance order can be recovered, while the long distance disorder remains. We also presented the possibility to have grains of different polytypes oriented faraway from the original direction. Now, this alternative is confirmed by the cross-sectional transmission and high resolution electron microscopy studies, carried out to obtain information about the crystal structure. |
Identificador del proyecto | MAT2002-02843
lE27 / 2001 T032029 T047011 T043704 K61725 |
Cita | Battistig, G., Khánh, N.Q., Petrik, P., Lohner, T., Dobos, L., Pécz, B.,...,Morilla García, Y. (2006). A view of the implanted SiC damage by Rutherford backscattering spectroscopy, spectroscopic ellipsometry, and transmission electron microscopy. Journal of Applied Physics, 100 (9), 093507. |
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