Skewness of implanted ion profiles

This paper presents an experimental and theoretical study of longitudinal and transversal range parameters of molybdenum ions ranging from 40 to 360 keV implanted in silicon. In the experimental part of this study, silicon wafers were tilted by 7° and 55° at the time they were implanted with molybdenum ions. The implanted-ion depth profiles were detected by means of secondary ion mass specfroscopy (SIMS) measurements. The measured range parameters were extracted from fitting the measured implanted-ion depth profiles to a Pearson distribution. In addition, the transversal range straggling measurements were obtained by using the Furukawa and Matsumura formula. Measured range parameters were also compared to the values calculated from the Biersack theory. It was found that the calculated values of projected range, longitudinal range straggling, skewness, kurtosis, and transversal range straggling agreed to the corresponding measured values within (on average) 9%, 7%, 32%, 17%, and 10%, respectively.

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Skewness of implanted ion profiles

Cited by 3 publications

References 25 publications

Higher moments of the implanted-ion profiles of bismuth in silicon

Higher moments of the implanted-ion profiles of bismuth in silicon

Valence state and co-ordination of implanted ions in MgO

A Study of Longitudinal and Transversal Range Parameters of Ion-Implanted 40–360 keV Molybdenum in Silicon

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