论文信息 - Ultrashallow Junction Formation Using Novel Plasma Doping Technology beyond 50 nm MOS Devices

Ultrashallow Junction Formation Using Novel Plasma Doping Technology beyond 50 nm MOS Devices

In this paper, we demonstrate a novel plasma ion-shower doping (PLAD) technique for fabricating a nanoscale silicon-on-insulator metal-oxide-semiconductor field effect transistors (SOI MOSFETs). The source drain (S/D) extensions of the SOI n-MOSFETs were formed by elevated-temperature (ET) PLAD. Even though activation annealing after PLAD was excluded to minimize the diffusion of dopants, which resulted in laterally abrupt S/D junction, we obtained a low sheet resistance of 920 Ω/□ by the ET PLAD at 230°C. The fabricated SOI n-MOSFET with a gate length of 50 nm adopted in the proposed junction formation technique showed suppressed short-channel effects. The successful operation of a MOSFET with a high-κ gate dielectric and metal gate revealed that the proposed junction formation technique is compatible with devices made of low-thermal-budget material.

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