Title :
Submicrometer salicide CMOS devices with self-aligned shallow/deep junctions
Author :
Lu, Chih-Yuan ; Sung, Janmye James ; Yu, Chen-Hua D.
Author_Institution :
AT&T Bell Lab., Allentown, PA, USA
Abstract :
The use of triple-layer oxide/nitride/PETEOS (plasma-enhanced TEOS) gate spacer, CMOS (T-MOS) structure to form shallow/deep junctions with the deep junction self-aligned to the silicide layer on the source/drain area of submicrometer CMOS devices is discussed. Due to the disposable PETEOS spacer layer, only two masks (one for each channel) are needed to form this source/drain junction signature. A T-MOS structure of 0.5- mu m physical gate length has been demonstrated with good device characteristics and ideal junction leakage properties. This T-MOS process, with its moderated doped drain (MDD) structure, is a promising device choice for deep-submicrometer CMOS devices.<>
Keywords :
CMOS integrated circuits; integrated circuit technology; 0.5 micron; T-MOS structure; disposable PETEOS spacer layer; gate length; junction leakage properties; masks; moderated doped drain structure; oxide/nitride/PETEOS; plasma-enhanced TEOS; self-aligned shallow/deep junctions; source/drain area; submicrometre salicide CMOS devices; triple layer gate spacer; Contact resistance; Etching; Hafnium; Implants; MOSFET circuits; Plasma temperature; Resists; Silicides; Silicon;
Journal_Title :
Electron Device Letters, IEEE
