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X-ray Double Crystal Diffraction Study of Si~+ Implanted GaAs

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ã€Authorã€‘ Zhu Nanchang/Shanghai Institute of Metallurgy.Academia Sinica, Shanghai 200050, ChinaChen Jingyi/Shanghai Institute of Metallurgy.Academia Sinica, Shanghai 200050, ChinaLi Runshen/Shanghai Institute of Metallurgy.Academia Sinica, Shanghai 200050, ChinaS. S. Hsu/Shanghai Institute of Metallurgy.Academia Sinica, Shanghai 200050, ChinaXia Guanqun/Shanghai Institute of Metallurgy.Academia Sinica, Shanghai 200050, ChinaHu Suying/Shanghai Institute of Metallurgy.Academia Sinica, Shanghai 200050, China

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ã€Abstractã€‘ The 180keV Si⁺ implanted and annealed GaAsï¼ˆ100ï¼‰ wafers are investigated by X-ray dou-ble crystal diffractionï¼ˆDCDï¼‰,accompanied by measuring the electrical properties and simula-ting the double-crystal rocking curves ï¼ˆRCsï¼‰.The results show that the implanted Si atoms aregenerally at the interstitial sites to expand the crystal lattice while implanting,and then transfer-red to the substitutional sites after annealing,but this transfer can not completely finish.It is obviously that the Si atoms.have transferred from interstitial sites to substitutional siteswhile implanting at a high dose of more than 1Ã—10¹³cm^-2.Though the specimen are annea-led at 800â„ƒ for 30 minutes,the implantation induced crystal lattice damage and strain stillremain at the dose of 1Ã—10¹⁵cm^-2, that is a great number of silicon atoms are still at intersti-tial sites,and the activation efficiency can not be arised.Further analyses show that the holesand the strain in the implanted layer play a main role to transfer interstitial silicon atoms tothe substitutional sites and induce strain saturation effect during implantation.æ›´å¤š è¿˜åŽŸ