Scholars@Duke publication: Modeling boron diffusion in ultrathin nitrided oxide p <sup>+</sup> Si gate technology

Modeling boron diffusion in ultrathin nitrided oxide p ⁺ Si gate technology

Publication , Journal Article

Fair, RB

Published in: IEEE Electron Device Letters

June 1, 1997

Based on a network defect model for the diffusion of B in SiO 2, we propose that B diffuses via a peroxy linkage defect (pld) whose concentration in the oxide changes under different processing conditions. We show that as N is added to the gate oxide (nitridation), N atoms compete with B atoms for activation through the diffusion-defect sites. The model predicts that nitridation is ineffective in stopping B penetration when BF 2 implants dope the polysilicon gate, as well as for the case of very thin gate dielectrics with B-implanted gates.

Duke Scholars

Author Richard B. Fair Electrical and Computer Engineering

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Published In

IEEE Electron Device Letters

DOI

10.1109/55.585342

ISSN

0741-3106

Publication Date

June 1, 1997

Volume

Issue

Start / End Page

244 / 247

Related Subject Headings

Applied Physics
4009 Electronics, sensors and digital hardware
0906 Electrical and Electronic Engineering

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Fair, R. B. (1997). Modeling boron diffusion in ultrathin nitrided oxide p ⁺ Si gate technology. IEEE Electron Device Letters, 18(6), 244–247. https://doi.org/10.1109/55.585342

Fair, R. B. “Modeling boron diffusion in ultrathin nitrided oxide p ⁺ Si gate technology.” IEEE Electron Device Letters 18, no. 6 (June 1, 1997): 244–47. https://doi.org/10.1109/55.585342.

Fair RB. Modeling boron diffusion in ultrathin nitrided oxide p ⁺ Si gate technology. IEEE Electron Device Letters. 1997 Jun 1;18(6):244–7.

Fair, R. B. “Modeling boron diffusion in ultrathin nitrided oxide p ⁺ Si gate technology.” IEEE Electron Device Letters, vol. 18, no. 6, June 1997, pp. 244–47. Scopus, doi:10.1109/55.585342.

Fair RB. Modeling boron diffusion in ultrathin nitrided oxide p ⁺ Si gate technology. IEEE Electron Device Letters. 1997 Jun 1;18(6):244–247.

Published In

IEEE Electron Device Letters

DOI

10.1109/55.585342

ISSN

0741-3106

Publication Date

June 1, 1997

Volume

Issue

Start / End Page

244 / 247

Related Subject Headings

Applied Physics
4009 Electronics, sensors and digital hardware
0906 Electrical and Electronic Engineering

Modeling boron diffusion in ultrathin nitrided oxide p + Si gate technology

Duke Scholars

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Published In

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Start / End Page

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Citation

Published In

DOI

ISSN

Publication Date

Volume

Issue

Start / End Page

Related Subject Headings

Modeling boron diffusion in ultrathin nitrided oxide p ⁺ Si gate technology