Title :
Facet engineered elevated source/drain by selective Si epitaxy for 0.35 micron MOSFETS
Author :
Mazure, C. ; Fitch, J. ; Gunderson, C.
Author_Institution :
Adv. Products Res. & Dev. Lab., Motorola Inc., Austin, TX, USA
Abstract :
A novel facet-engineered elevated source/drain formation design is presented. It is found that the ex situ clean prior to selective Si epitaxial growth (SEG) determines the resulting facets on the SEG-source/drain. We show that low angle facets are very advantageous for minimizing parasitic Miller capacitances, while simultaneously grading the source/drain junction near the gate edge and retrieving the source/drain junction from the substrate elsewhere, thus reducing the junction capacitance. Further, we show that both a strong current drive (I/sub DS/) increase and a reduction in parasitic junction capacitance can be realized with facet-engineered phosphorus doped SEG-source/drain with no detrimental effects to short channel device behavior.<>
Keywords :
MOS integrated circuits; capacitance; epitaxial growth; insulated gate field effect transistors; integrated circuit technology; phosphorus; semiconductor growth; silicon; 0.35 micron; MOSFETS; P doped SEG; Si:P; epitaxial growth; facet-engineered elevated source/drain formation; junction capacitance; low angle facets; parasitic Miller capacitances; selective Si epitaxy; short channel device; Capacitance; Epitaxial growth; Insulated gate FETs; Integrated circuit fabrication; MOS integrated circuits; Phosphorus; Semiconductor growth; Silicon;
Conference_Titel :
Electron Devices Meeting, 1992. IEDM '92. Technical Digest., International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-0817-4
DOI :
10.1109/IEDM.1992.307491
