Title :
Use of focused-ion-beam and modeling to optimize submicron MOSFET characteristics
Author :
Shen, Chih-Chieh ; Murguia, James ; Goldsman, Neil ; Peckerar, Marty ; Melngailis, John ; Antoniadis, Dimitri A.
Author_Institution :
Dept. of Electr. Eng., Maryland Univ., College Park, MD, USA
fDate :
2/1/1998 12:00:00 AM
Abstract :
An asymmetrical MOSFET structure is formed by using a focused-ion-beam implantor to create a p+ channel doping next to the source. This work builds on previous efforts by providing a uniquely tailored doping profile through the use of localized beams. An investigation shows that the output resistance improves, detrimental hot-electron effects diminish, and threshold voltage stabilizes as channel length is reduced. The improved output resistance is especially beneficial to analog applications where enhanced current source characteristics often lead to significantly better circuit operation. Improvements in device performance are attributed to the reduction of the pinchoff region, which is clarified with the help of detailed hydrodynamic device simulations. A two-transistor equivalent circuit model has been developed which reflects the device structure
Keywords :
MOSFET; doping profiles; equivalent circuits; focused ion beam technology; hot carriers; ion implantation; semiconductor device models; semiconductor device reliability; FIB implantor; asymmetrical MOSFET structure; doping profile; focused-ion-beam; hot-electron effects; hydrodynamic device simulations; modeling; output resistance; p+ channel doping; pinchoff region; submicron MOSFET characteristics; threshold voltage stabilization; two-transistor equivalent circuit model; Circuit simulation; Circuit stability; Degradation; Doping profiles; Equivalent circuits; Hydrodynamics; Implants; Ion beams; MOSFET circuits; Threshold voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
