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Epitaxial technologies for ultimate scaling

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Silicon CMOS is rapidly running out of steam and the entire semiconductor industry is puzzled about what comes next as the roadmap advances towards the terahertz region. It is clear that virtually every material (gate, gate oxide and channel) used in the current transistor must be replaced within the next 3 - 4 years, without interruption in the industry's pace.

Two high mobility material classes are emerging as potential silicon replacement: germanium (Ge) and compound semiconductors (CS). The goal of this project is to find out which one presents the best future technology platform. This formidable question requires a major rethinking of all materials and processes. It will be addressed here from all relevant aspects: advanced large area wafers, novel gate stacks and transistor processing. With a strict focus on a simple and well- defined process-flow as well as an innovative, fast materials characterization track, the main strengths and showstoppers for each material system will be identified.

The first objective is to demonstrate that high mobility large area compliant substrates of Ge-on-insulator (GOI) and CS- on-insulator (CSOI) can be obtained. GOI, and CSOI will be grown by developing a "strained oxide template on Si" technology based on molecular beam epitaxy (MBE). The second objective is to demonstrate high quality gate stacks on Ge and CS. The challenge is to find suitable high-k compounds that can be used as gate dielectrics while maintaining high channel mobilities. The development of amorphous or epitaxial (for double gate) metal gates is also an essential project component. The third objective is to integrate the new channel and gate materials with a 200 mm semiconductor wafer processing line to demonstrate high mobility transistors for a few well chosen material systems.

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NATIONAL CENTRE FOR SCIENTIFIC RESEARCH "DEMOKRITOS"
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