Title :
An Extreme Surface Proximity Push for Embedded SiGe in pMOSFETs Featuring Self-Aligned Silicon Reflow
Author :
Lin, Da-Wen ; Chen, Chien-Liang ; Chen, Ming-Jer ; Wu, Chung-Cheng
Author_Institution :
Taiwan Semicond. Manuf. Co., Hsinchu, Taiwan
Abstract :
This letter proposes a novel process to modulate the distance, or proximity, between the tip of embedded silicon-germanium (e-SiGe) and the channel region in pMOSFETs. Traditionally, sophisticated etching treatment is adopted in a spacer structure; however, process-induced variation in the e-SiGe proximity may lead to serious variation in pMOSFET performance. In this letter, an extremely close proximity is achieved using self-aligned silicon reflow (SASR) in hydrogen ambient. As opposed to conventional approaches which have e-SiGe proximity determined by spacer width, the tip of e-SiGe with SASR can be positioned flush with the gate edge, as corroborated by both the TEM analyses and TCAD simulation. A significant improvement in pMOSFET performance is also measured.
Keywords :
Ge-Si alloys; MOSFET; etching; proximity effect (lithography); technology CAD (electronics); SASR; SiGe; TCAD simulation; TEM analysis; embedded silicon-germanium tip; etching treatment; hydrogen ambient; pMOSFET channel region; self-aligned silicon reflow; spacer structure; surface proximity push; Analytical models; Annealing; CMOS technology; Capacitive sensors; Epitaxial growth; Etching; Germanium silicon alloys; Hydrogen; International Electron Devices Meeting; Logic gates; MOSFETs; Silicon; Silicon germanium; Strain; Surface treatment; Embedded silicon–germanium (e-SiGe); MOSFET; reflow; self-aligned; strain;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2010.2056350
