Title :
A Comparison of Short-Channel Control in Planar Bulk and Fully Depleted Devices
Author :
Muralidhar, Ramachandran ; Cai, Jin ; Lauer, Isaac ; Chan, Kevin ; Kulkarni, Pranita ; Kim, Young-Hee ; Ren, Zhibin ; Park, Dae-Gyu ; Oldiges, Phil ; Shahidi, Ghavam
Author_Institution :
IBM T. J. Watson Labs., Yorktown Heights, NY, USA
fDate :
6/1/2012 12:00:00 AM
Abstract :
The short-channel effects (SCEs) of planar bulk and fully depleted finFET devices have been compared using the same junction overlap and lateral gradient, and it is shown that, for finFET devices, a significant component of electrostatic control arises from a naturally present shallow extension junction. When such shallow junctions are applied to a bulk device, we show that the SCE becomes comparable to that of a finFET. Furthermore, we show that, if an embedded source/drain stressor is incorporated in a bulk device, it will not degrade the short-channel benefit of the ultrashallow junctions. The ability to span a wide power/performance range by doping and the improvement in SCEs by the use of ultrashallow extension junctions can potentially extend the life of bulk-type technologies.
Keywords :
MOSFET; electric variables control; electrostatic devices; semiconductor doping; SCE; doping; electrostatic control; embedded source-drain stressor; finFET devices; full depleted devices; junction overlap; lateral gradient; planar bulk-type technology; shallow extension junction; short-channel control; Doping; Electrostatics; Junctions; Logic gates; Performance evaluation; Semiconductor process modeling; Silicon; TCAD; finFET; short-channel control; ultrashallow extensions; ultrashallow junctions;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2012.2192411
