Title :
Epitaxial-base double-poly self-aligned bipolar transistors
Author :
Ganin, E. ; Chen, T.C. ; Stork, J.M.C. ; Meyerson, B.S. ; Cressler, J.D. ; Scilla, G. ; Warnock, J. ; Harame, D.L. ; Patton, G.L. ; Ning, T.H.
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
Abstract :
Reports the incorporation of Si and Si-Ge low temperature epitaxially (LTE) grown bases into an advanced submicron self-aligned double-poly device structure. The major advantages of using an LTE-base are the ability to incorporate coherently strained Si-Ge layers and to grow very thin in-situ doped layers with a boxlike dopant distribution. The epitaxial base layer was integrated using both epitaxy-after-sidewall (EAS) and epitaxy-before-sidewall approaches, and devices with an intrinsic base width of approximately=60 nm and a pinch base resistance of 5.0 k Omega / Square Operator in walled and non-walled emitter configurations were fabricated. The electrical characteristics of the walled-emitter devices obtained by the EAS approach were excellent. The application of the walled-emitter devices, due to their reduced parasitics and higher density, is very promising in high-performance low-power bipolar circuits.<>
Keywords :
Ge-Si alloys; bipolar transistors; doping profiles; elemental semiconductors; semiconductor epitaxial layers; semiconductor growth; semiconductor materials; silicon; boxlike dopant distribution; electrical characteristics; epitaxial base layer; epitaxy-after-sidewall; epitaxy-before-sidewall; in-situ doped layers; intrinsic base width; low-power bipolar circuits; nonwalled emitter; parasitics; pinch base resistance; submicron self-aligned double-poly device structure; walled emitter; Bipolar transistors; Circuits; Electric resistance; Electric variables; Temperature;
Conference_Titel :
Electron Devices Meeting, 1990. IEDM '90. Technical Digest., International
Conference_Location :
San Francisco, CA, USA
DOI :
10.1109/IEDM.1990.237126
