Title :
Improved short-channel FET performance with virtual extensions
Author :
Connelly, Daniel ; Faulkner, Carl ; Clifton, P.A. ; Grupp, D.E.
Author_Institution :
Acorn Technol., Palo Alto, CA, USA
Abstract :
Here, for the first time, a method is presented to use electrostatic coupling from a metal of appropriate workfunction, separated from the extension region by a thin insulator, to create an electrostatically-induced charge layer in doped source/drain CMOS. This "virtual extension" allows for lower extension doping and increased underlap between the doped extension and the gate, "sharpening" the carrier profile and improving short-channel device performance. In one example, clock-limiting n-FET switching currents are improved 25% using this approach. However, the improvement in switching speed due to this higher current is partially offset by capacitance between the metal overlap and the extension.
Keywords :
CMOS integrated circuits; MOSFET; semiconductor device models; MOSFET; doped source/drain CMOS; electrostatic coupling; electrostatically-induced charge layer; lower extension doping; n-FET switching current; semiconductor device modeling; short-channel FET performance; virtual extension; CMOS technology; Capacitance; Electrons; FETs; Insulation; MOS capacitors; Metal-insulator structures; Semiconductor device doping; Silicon; Voltage; CMOS; MOS devices; MOSFETs; semiconductor device modeling; silicon; simulation;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2005.860778
