Abstract
This paper presents a general study on the germanium (Ge) condensation technique to assess its potential, issues and applications for advanced metal oxide semiconductor field effect transistor (MOSFET) technologies. The interest in such process for fabrication of ultrathin germanium on insulator (GeOI) layers for fully depleted GeOI MOSFETs application is first described. We highlight the impact of initial silicon on insulator (SOI) substrates uniformity on the process, determined as the key parameter to be improved. Next, a global procedure is described for MOSFETs integration on Ge layers grown on 75% Ge-enriched silicon germanium on insulator (SGOI) substrates obtained by the Ge condensation technique. A third section reviews the different local Ge condensation techniques for fabrication of SOI–GeOI hybrid substrates. Interests of such substrates for SOI–GeOI planar co-integration either at the microprocessor, at the cell or at the transistor level will be discussed. Finally, the fabrication of a first 50-nm-thick SOI–GeOI hybrid substrate is described.
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