Concentration and ion-energy-independent annealing kinetics during ion-implanted-defect annealing

R Karmouch; J.-F Mercure; Y Anahory; F Schiettekatte

doi:10.1063/1.1852733

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Concentration and ion-energy-independent annealing kinetics during ion-implanted-defect annealing

Journal article

Peer reviewed

Concentration and ion-energy-independent annealing kinetics during ion-implanted-defect annealing

R Karmouch, J.-F Mercure, Y Anahory and F Schiettekatte

Applied physics letters, Vol.86(3), pp.031912-031912-3

17/01/2005

DOI: https://doi.org/10.1063/1.1852733

Abstract

Nanocalorimetry revealed that the annealing kinetics of ion-implanted defects in polycrystalline Si is independent of ion fluence and implantation energy. Ion implantation of 30 keV Si − , 15 keV Si − , and 15 keV C − was performed at fluences ranging from 6 × 10 11 to 1 × 10 15 atoms ∕ cm 2 , followed by temperature scans between 30 and 450°C. The rate of heat release has the same shape for all fluences, featuring no peaks but rather a smooth, continuously increasing signal. This suggests that the heat release is dominated by the annealing of highly disordered zones generated by each implantation cascade. Such annealing depends primarily on the details of the damage zone-crystal interface kinetics, and not on the point defect concentration.

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Title: Concentration and ion-energy-independent annealing kinetics during ion-implanted-defect annealing
Creators - without role: R Karmouch - Regroupement Québécois sur les Matériaux de Pointe
J.-F Mercure - Regroupement Québécois sur les Matériaux de Pointe
Y Anahory - Regroupement Québécois sur les Matériaux de Pointe
F Schiettekatte - Regroupement Québécois sur les Matériaux de Pointe
Publication Details: Applied physics letters, Vol.86(3), pp.031912-031912-3
Publisher: American Institute of Physics
Identifiers: 9917699708331
Academic Unit: Jazan University
Resource Type: Journal article