| 摘要 |
A GaAs/Ge on Si CMOS integrated circuit is formed to improve transistor switching (propagation) delay by taking advantage of the high electron mobility for GaAs in the N-channel device and the high hole mobility for Ge in the P-channel device. A semi-insulating (undoped) layer of GaAs is formed over a silicon base to provide a buffer layer eliminating the possibility of latch-up. GaAs and Ge wells are then formed over the semi-insulating GaAs layer, electrically isolated by standard thermal oxide and/or flowable oxide (HSQ). N-channel MOS devices and P-channel MOS devices are formed in the GaAs and Ge wells, respectively, and interconnected to form the integrated circuit. Gate electrodes for devices in both wells may be polysilicon, while the gate oxide is preferably gallium oxide for the N-channel devices and silicon dioxide for the P-channel devices. Minimum device feature sizes may be 0.5 mum to avoid hot carrier degradation while still achieving performance increases over 0.18 mum silicon-only CMOS integrated circuits.
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