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We found that the relatively low temperature millisecond annealing at S/D activation for nFET is enhanced the co-implanted halo activation regardless of sequence of MSA and spike-RTA. Tilt-and-twist extension implantation technique with millisecond extension annealing for pFET was also performed to reduce the parasitic resistance. By combining these technique, an aggressively scaled high-performance...
This paper review our developed junction profile engineering technique that uses millisecond annealing (MSA): MSA is implemented prior to spike- RTA to modulate the junction profile. With this technique, we can improve the performance of MOSFETs more effectively than conventional techniques. In addition, it enables us to use lower MSA temperatures with wide process window because of its low sensitivity...
We developed novel junction profile engineering that uses a newly developed multiple laser spike annealing scheme and applied it to 45-nm node high performance and low leakage CMOS technology. This novel junction profile engineering is effective for the performance improvement of CMOS devices with embedded SiGe in the PMOS regions. Reduction of the source-drain parasitic resistance and the junction...
We have developed a novel junction profile engineering using laser spike annealing (LSA) with co-implant and applied it to sub-30-nm strained CMOS devices. A 55% reduction in source-drain extension (SDE) resistance achieves a 15% improvement in the saturation on-current (I on) at a 28-nm gate length for PMOS. A reduction in the source-dram parasitic resistance enables an over 50% improvement in the...
We describe the integration of a 45-nm node CMOS for low operation power (LOP) application. The SD extension profile along with a strain channel and a thin-gate-SiON were optimized to keep high drive current at the 45-nm node. A novel STI structure was developed to reduce the SRAM cell size. Nano-clustering silica (NCS) without a middle-etch stopper (MES) was also developed to decrease the wire capacitance...
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