Title :
Cathodoluminescence characterization of InGaSb crystals
Author :
Chioncel, M.F. ; Diaz-Guerra, C. ; Piqueras, J. ; Vincent, J. ; Bermùdez, V. ; Diéguez, E.
Author_Institution :
Dept. of Mater. Phys., Univ. Complutense de Madrid, Spain
Abstract :
The nature and the spatial distribution of radiative defects in InxGa1-xSb grown by the vertical Bridgman method have been studied by cathodoluminescence (CL) in a scanning electron microscope. The CL results have been complemented by X-ray microanalysis and backscattered electron imaging to relate the local luminescence properties to the chemical composition. Measurements of the band gap energy from the CL spectra, supported by X-ray compositional mappings, reveal an effective incorporation of In in the matrix, leading to the formation of the ternary alloy in the whole volume of the ingot. A band often observed in the CL spectra, peaked at about 20 meV below the band gap energy, is attributed to the presence in the ternary alloy of an acceptor level that would correspond to the VGa-GaSb acceptor in GaSb.
Keywords :
III-V semiconductors; X-ray chemical analysis; X-ray diffraction; cathodoluminescence; crystal growth from melt; electron backscattering; energy gap; gallium compounds; impurity states; indium compounds; scanning electron microscopy; semiconductor growth; InxGa1-xSb; InGaSb crystals; X-ray microanalysis; acceptor level; backscattered electron imaging; band gap energy; cathodoluminescence; chemical composition; effective incorporation; radiative defects; scanning electron microscope; spatial distribution; vertical Bridgman method; Chemicals; Crystals; Energy measurement; Lead; Luminescence; Optical imaging; Photonic band gap; Scanning electron microscopy; Volume measurement; X-ray imaging;
Conference_Titel :
Microelectronics, 2004. 24th International Conference on
Print_ISBN :
0-7803-8166-1
DOI :
10.1109/ICMEL.2004.1314870
