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Semiconductors have been successfully produced by the miniaturization of planar transistors and their transformation into a 3D structure. This innovation will realize ideal performance in electric devices. In this article, plasma doping combined with He plasma amorphization (He-PA) and several state-of-the-art rapid thermal processing is shown to be a technology for enabling the fabrication of miniaturized...
We measured HX-PES (Si 1s) of ultra low energy ion implantion (I/I) samples combined with Ge pre-amorphizaiton implantation (Ge-PAI) before and after spike RTA, and compared it with that of plasma doping (PD) samples. As-doped I/I sample showed higher hole density compared to as-doped PD sample due to lower defect induced carrier trap. Ge-PAI+I/I sample showed strong asymmetric in lower binding energy...
We measured HX-PES (Si 1s) of ultra low energy ion implantation (I/I) samples combined with Ge pre-amorphizaiton ion implantation (Ge-PAI) before and after spike RTA, and compared it with that of plasma doping (PD) samples. As-doped I/I sample showed higher hole density compared to as-doped PD sample due to lower defect induced carrier trap. Ge-PAI+I/I sample showed strong asymmetric in lower binding...
Semiconductors have been successfully produced by the miniaturization of planar transistors and their transformation into a 3D structure. This innovation will realize ideal performance in electric devices. In this article, plasma doping combined with He plasma amorphization (He-PA) and several state-of-the-art rapid thermal processing is shown to be a technology for enabling the fabrication of miniaturized...
In this work, combination of the plasma doping method with flush lamp annealing (FLA) or solid-state laser annealing (ASLA) is shown to be very promising technique to form ultra-shallow and low-resistive junctions for future nano CMOS. Amorphisation by He plasma (He-PA process) is shown to be effective for obtaining shallow junction depth (Xj) and low sheet resistance (Rs). The He-PA process is found...
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