2008
DOI: 10.1016/j.tsf.2008.08.102
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(110) Ultrathin GOI layers fabricated by Ge condensation method

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Cited by 26 publications
(26 citation statements)
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“…As for p-MOSFETs, a (110) Ge surface is known to provide the highest hole mobility. We have recently succeeded in fabricating (110) GOI structures just by using (110) SOI substrates as starting materials in the Ge condensation process [33]. We have confirmed the device operation of (110) GOI p-MOSFETs under back gate control and a hole mobility enhancement of around 1.4-2.8x against the Si universal hole mobility has been obtained [34,35].…”
Section: (110)mentioning
confidence: 67%
“…As for p-MOSFETs, a (110) Ge surface is known to provide the highest hole mobility. We have recently succeeded in fabricating (110) GOI structures just by using (110) SOI substrates as starting materials in the Ge condensation process [33]. We have confirmed the device operation of (110) GOI p-MOSFETs under back gate control and a hole mobility enhancement of around 1.4-2.8x against the Si universal hole mobility has been obtained [34,35].…”
Section: (110)mentioning
confidence: 67%
“…Thus, the SiGe layer is transformed into Ge. (110)-oriented compressively strained (1.1%) GeOI layers with Ge thickness of 12 nm have been demonstrated [18]. This is not as popular as other techniques for integrating Ge on Si, which is somewhat surprising as it is relatively straight-forward.…”
Section: Substrates and Integrationmentioning
confidence: 99%
“…Therefore, it is theoretically quite difficult to develop process technologies to reduce the dislocation density in the Ge layer grown directly on the Si. Another approach to fabricating single-crystal Ge with low dislocation density is Ge condensation [4,5] by thermally oxidizing SiGe grown thinner than the critical thickness on Si. Condensation of Ge is realized by selectively oxidizing Si atoms and increasing the atomic contents of Ge in SiGe [4,5].…”
Section: Introductionmentioning
confidence: 99%
“…Another approach to fabricating single-crystal Ge with low dislocation density is Ge condensation [4,5] by thermally oxidizing SiGe grown thinner than the critical thickness on Si. Condensation of Ge is realized by selectively oxidizing Si atoms and increasing the atomic contents of Ge in SiGe [4,5]. In the Ge condensation technique [4,5], compressive strain is applied to the interface between the buried oxide (BOX) and condensed Ge layers, which results in an increase in the energy difference between the indirect L valley and the direct Γ valley in the conduction band [6].…”
Section: Introductionmentioning
confidence: 99%
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