南阳师范学院学报
南暘師範學院學報
남양사범학원학보
JOURNAL OF NANYANG TEACHERS COLLEGE
2012年
12期
30-35
,共6页
刘旭焱%王爱华%蒋华龙%周大伟
劉旭焱%王愛華%蔣華龍%週大偉
류욱염%왕애화%장화룡%주대위
绝缘体上的锗硅%锗浓缩%应变
絕緣體上的鍺硅%鍺濃縮%應變
절연체상적타규%타농축%응변
SiGe-On-Insulator (SGOI)%Ge condensation%strained Si
绝缘体上的锗硅(SiGe.On.Insulator,SGOI)材料不仅是高迁移率新型沟道材料应变硅的良好衬底,其本身也是一种极具潜力的高迁移率衬底材料.Ge浓缩是获得高Ge组分、高质量SGOI的最优制备方法之一,传统Ge浓缩工艺在实验中得到改进,在高纯N2气氛中,进行了1000oC的后退火以改善所得SGOI中Ge元素的分布.实验制备了三种后退火条件下的Ge浓缩样品以作对比,并在三种样品上分别外延了20nm厚的顶层Si以进一步确定所得SGOI材料性能.实验结果发现。三种样品表面平整度并无太大差别,而使用了改进后退火工艺的样品具有最好的Ge组分均匀性和最低的缺陷密度.同时,改进后退火工艺的样品上外延所得顶层硅具有最大的应变值,而Si/SiGe界面处Ge的组分是顶层硅应变度的决定性因素之一.
絕緣體上的鍺硅(SiGe.On.Insulator,SGOI)材料不僅是高遷移率新型溝道材料應變硅的良好襯底,其本身也是一種極具潛力的高遷移率襯底材料.Ge濃縮是穫得高Ge組分、高質量SGOI的最優製備方法之一,傳統Ge濃縮工藝在實驗中得到改進,在高純N2氣氛中,進行瞭1000oC的後退火以改善所得SGOI中Ge元素的分佈.實驗製備瞭三種後退火條件下的Ge濃縮樣品以作對比,併在三種樣品上分彆外延瞭20nm厚的頂層Si以進一步確定所得SGOI材料性能.實驗結果髮現。三種樣品錶麵平整度併無太大差彆,而使用瞭改進後退火工藝的樣品具有最好的Ge組分均勻性和最低的缺陷密度.同時,改進後退火工藝的樣品上外延所得頂層硅具有最大的應變值,而Si/SiGe界麵處Ge的組分是頂層硅應變度的決定性因素之一.
절연체상적타규(SiGe.On.Insulator,SGOI)재료불부시고천이솔신형구도재료응변규적량호츤저,기본신야시일충겁구잠력적고천이솔츤저재료.Ge농축시획득고Ge조분、고질량SGOI적최우제비방법지일,전통Ge농축공예재실험중득도개진,재고순N2기분중,진행료1000oC적후퇴화이개선소득SGOI중Ge원소적분포.실험제비료삼충후퇴화조건하적Ge농축양품이작대비,병재삼충양품상분별외연료20nm후적정층Si이진일보학정소득SGOI재료성능.실험결과발현。삼충양품표면평정도병무태대차별,이사용료개진후퇴화공예적양품구유최호적Ge조분균균성화최저적결함밀도.동시,개진후퇴화공예적양품상외연소득정층규구유최대적응변치,이Si/SiGe계면처Ge적조분시정층규응변도적결정성인소지일.
A modified post-annealing at 1000 ℃ in N2 ambient was carried out to improve the Ge distribution in the SiGe layer fabricated by the Ge condensation process, which is a potential technique for strained Si fabrication. Three kinds of SiGe-on-insulator (SGOI) samples were fabricated by so-called Ge condensation, which was the oxidation of the SiGe layer on an insulator to enhance the Ge fraction. After different post-annealing processes and the necessary cleaning steps, 20-nm-thick strained Si films were epitaxially grown on them. Though the differences of surface topography among the three samples are not great, the one with the modified post-annealing process has the most uniform Ge element distribution and the least misfit dislocations. Meanwhile, the strain values obtained by Raman spectra are coherent with the Ge fraction in SiGe near the Si/SiGe interface and the sample with the modified post-annealing process has a larger strain value than the one with a conventional post-an- nealing.