Damage in high energy light ions irradiated silicon carbide

机译：高能光离子损坏照射碳化硅

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Commertical n-type 4H-SiC wafers were implanted with doses of MeV alpha particles, high enough to cause majority carrier modification. Analysis of infrared reflectivity spectra shows that the implanted crystals can be divided into three layers: a surface layer of about 30 nm followed by a compensation layer where the energy transfer of the incident particles is low and an overdoping layer in the region of maximum defect production, i.e. near the theoretical mean range of ions R_p.

机译：植入沟通N型4H-SiC晶片植入含量的MeVα颗粒，足够高以引起多数载体改性。红外反射率光谱的分析表明，植入的晶体可以分为三层：约30nm的表面层，然后是在最大缺陷产生的区域中的能量转移低，并且在最大缺陷产生的区域中的覆盖层，即在理论均值范围内接近离子R_P。

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《Symposium on defect and impurity engineered semiconductors》|1998年||共6页
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P.Leveque; S.Godey; P.O.Renault; E.Ntsoenzok; J.F.Barbot; Materials Research Society;
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中图分类半导体器件制造工艺及设备;
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4. Damage in high energy light ions irradiated silicon carbide [C] . P.Leveque, S.Godey, P.O.Renault, Defect and impurity engineered semiconductors II . 1998

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Damage in high energy light ions irradiated silicon carbide

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