摘要
A P-layer can be formed on a SiC wafer surface by using multiple Al ion implantations and post-implantation annealing in a low pressure CVD reactor.The Al depth profile was almost box shaped with a height of 1×10^(19)cm^(-3) and a depth of 550 nm.Three different annealing processes were developed to protect the wafer surface.Variations in RMS roughness have been measured and compared with each other.The implanted SiC, annealed with a carbon cap,maintains a high-quality surface with an RMS roughness as low as 3.8 nm.Macrosteps and terraces were found in the SiC surface,which annealed by the other two processes(protect in Ar/protect with SiC capped wafer in Ar).The RMS roughness is 12.2 nm and 6.6 nm,respectively.
A P-layer can be formed on a SiC wafer surface by using multiple Al ion implantations and post-implantation annealing in a low pressure CVD reactor.The Al depth profile was almost box shaped with a height of 1×10^(19)cm^(-3) and a depth of 550 nm.Three different annealing processes were developed to protect the wafer surface.Variations in RMS roughness have been measured and compared with each other.The implanted SiC, annealed with a carbon cap,maintains a high-quality surface with an RMS roughness as low as 3.8 nm.Macrosteps and terraces were found in the SiC surface,which annealed by the other two processes(protect in Ar/protect with SiC capped wafer in Ar).The RMS roughness is 12.2 nm and 6.6 nm,respectively.
基金
Project supported by the National Natural Science Foundation of China(No.60876003)
the Chinese Academy of Sciences(No. Y072011000)
the Beijing Municipal Science & Technology Commission(No.D09080300500903)
the Knowledge Innovation Program of the Chinese Academy of Sciences(No.ISCAS2008T04)
