Damage profiles in high-energy As implanted Si

Deep distributions of lattice disorder induced in Si by room temperature, high-energy (3 MeV), nonamorphizing As ion implants have been characterized by Rutherford backscattering spectrometry channeling (RBS-C), double crystal x-ray diffractometry (DCXD), and cross-sectional transmission electron mi...

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Bibliographic Details
Published in:Journal of applied physics 2000-10, Vol.88 (7), p.3993-3999
Main Authors: Lulli, G., Bianconi, M., Parisini, A., Sama, S., Servidori, M.
Format: Article
Language:English
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Summary:Deep distributions of lattice disorder induced in Si by room temperature, high-energy (3 MeV), nonamorphizing As ion implants have been characterized by Rutherford backscattering spectrometry channeling (RBS-C), double crystal x-ray diffractometry (DCXD), and cross-sectional transmission electron microscopy (XTEM). After accurate calibration of the measurement conditions, the depth positions of the profiles of displaced atoms, lattice strain, and XTEM weak-beam dark-field contrast in a sample implanted at a dose of 1014 As cm−2 agree within 3%. This confirms that the quantities measured by the three techniques have a similar qualitative correlation with the depth profile of as-implanted damage. The shape of the disorder profiles indicates different rates of damage accumulation as a function of depth, which have been characterized by a series of DCXD measurements at doses in the range 1012–1014 As cm−2. The problem of a quantitative determination of the number of defects is also addressed. In particular, the result of RBS-C, which gives as output the concentration of displaced atoms, is sensitive to the configuration of damage assumed when fitting experimental spectra. As a consequence, to give a reliable estimate of defect number a more refined microstructural model of damage (including, for instance, the deformation induced in the background lattice by heavily displaced atoms) should be used within the simulation of the measurement process.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.1290712