Title :
A new 0.25- mu m recessed-channel MOSFET with selectively halo-doped channel and deep graded source/drain
Author :
Lee, Woo-Hyeong ; Park, Young-June ; Lee, Jong Duk
Author_Institution :
Dept. of Electron. Eng., Seoul Nat. Univ., South Korea
Abstract :
To improve the performance and reliability of deep submicron MOS devices, a gate-recessed MOSFET (GR-MOSFET), which has a selectively halo-doped recessed channel and a deep graded source/drain formed without counterdoping, is proposed. The GR-MOS structure, which adopts a new doping concept, eliminates the tradeoff between drain-induced barrier lowering (DIBL) and hot-carrier effect, which are important to deep submicron device design. It also reduces the V/sub T/ lowering effect and the lateral electric field at the drain. A 0.25- mu m GR-MOSFET with a 10-nm gate oxide has exhibited 15% higher transconductance and 10% increased saturation current at V/sub D/=V/sub G/=3.3 V, 1 V higher BV/sub DSS/, and six times less substrate current compared with an LDD-MOSFET of the same device dimensions.<>
Keywords :
doping profiles; hot carriers; insulated gate field effect transistors; 0.25 micron; deep graded source/drain; deep submicron MOS devices; drain-induced barrier lowering; hot-carrier effect; lateral electric field; recessed-channel MOSFET; reliability; saturation current; selectively halo-doped channel; Doping profiles; Etching; Hot carrier effects; Hot carriers; Impurities; MOS devices; MOSFET circuits; Medical simulation; Rapid thermal annealing; Transconductance;
Journal_Title :
Electron Device Letters, IEEE
