John D. Cressler, Tze-Chiang Chen, et al.
IEEE T-ED
This paper presents a detailed study on the narrow-emitter effect of advanced shallow-profile bipolar transistors. A methodology is established to assess the physical mechanisms behind both the base current and collector current modifications. It is shown that, in addition to a reduction in the active device area due to the lateral encroachment of extrinsic base into the intrinsic base area, the emitter polysilicon-single-crystal interface (bulk property of the polysilicon emitter) and the emitter/extrinsic-base overlap (perimeter property) also play important roles in determining the current gain for narrow-emitter bipolar transistors. The slopes of the collector saturation cur-rent density (Jcs) and the base saturation current density (Jbs) with respect to the perimeter-to-area (P/A) ratio are shown to be useful monitoring parameters for the lateral encroachment and the emitter polysilicon-single-crystal interface. The implications on the device and process design for future scaled-down devices are discussed. © 1988 IEEE
John D. Cressler, Tze-Chiang Chen, et al.
IEEE T-ED
Tze-Chiang Chen, Kai-Yap Toh, et al.
IEEE Electron Device Letters
J. Warnock, J.D. Cressler, et al.
VLSI Technology 1993
James Warnock, John D. Cressler, et al.
IEEE Electron Device Letters