Title :
Sub-100-nm vertical MOSFET with threshold voltage adjustment
Author :
Mori, Kiyoshi ; Duong, AnhKim ; Richardson, William F.
Author_Institution :
Sony Semicond. Corp., San Antonio, TX, USA
fDate :
1/1/2002 12:00:00 AM
Abstract :
Sub-100-nm vertical MOSFET has been developed for fabrication with low cost processing. This is the first vertical MOSFET design that combines 1) a vertical LDD structure processed with implantation and diffusion steps, 2) high-pressure oxide growing at source/drain (S/D) regions to reduce the gate overlapped capacitances, and 3) threshold voltage adjustment with a doped APCVD film. The drive current per unit channel width and S/D punch-through voltage are higher than that of previously published vertical MOSFETs. Fabrication processes are well established, and equipment of the 1 μm CMOS generation can be used to fabricate sub-100-nm channel length MOSFETs with good electrical characteristics and high performance
Keywords :
MOSFET; VLSI; doping profiles; isolation technology; nanotechnology; oxidation; sputter etching; CMOS generation; I-V output characteristics; SIMS doping profile; VLSI; anisotropic plasma etching; doped APCVD film; drive current per unit channel width; epitaxial channel; front-end process flow; gate overlapped capacitances; high-pressure oxide; hot carrier effects; low cost processing; oxidation; source/drain punch-through voltage; source/drain regions; threshold voltage adjustment; vertical MOSFET; CMOS process; Capacitance; Character generation; Costs; Doping; Electric variables; Fabrication; MOSFET circuits; Substrates; Threshold voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
