High-Temperature Annealing Induced He Bubble Evolution in Low Energy He Ion Implanted 6H-SiC

摘要

Bubble evolution in low energy and high dose He-implanted 6H-SiC upon thermal annealing is studied.The <0001>-oriented 6H-SiC wafers are implanted with 15keV helium ions at a dose of 1×1017 cm-2 at room temperature.The samples with post-implantation are annealed at temperatures of 1073,1173,1273,and 1473K for 30 min.He bubbles in the wafers are examined via cross-sectional transmission electron microscopy (XTEM) analysis.The results present that nanoscale bubbles are almost homogeneously distributed in the damaged layer of the as-implanted sample,and no significant change is observed in the He-implanted sample after 1073 K annealing.Upon 1193 K annealing,almost full recrystallization of He-implantation-induced amorphization in 6H-SiC is observed.In addition,the diameters of He bubbles increase obviously.With continually increasing temperatures to 1273K and 1473K,the diameters of He bubbles increase and the number density of lattice defects decreases.The growth of He bubbles after high temperature annealing abides by the Ostwald ripening mechanism.The mean diameter of He bubbles located at depths of 120-135 nm as a function of annealing temperature is fitted in terms of a thermal activated process which yields an activation energy of 1.9144-0.236 eV.