Modeling Anomalous Junction Formation in Silicon by the Codiffusion of Implanted Arsenic with Phosphorus

Publisher Website

1 January 1983

book chapter
Published by ASTM International

p. 290-305
https://doi.org/10.1520/stp36175s

Abstract

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Keywords

This publication has 10 references indexed in Scilit:

On the role of self-interstitials in impurity diffusion in silicon
Journal of Applied Physics, 1980
Relationship between total arsenic and electrically active arsenic concentrations in silicon produced by the diffusion process
Journal of Applied Physics, 1979
Long-range enhancement of boron diffusivity induced by a high-surface-concentration phosphorus diffusion
Applied Physics Letters, 1979
Oxidation-enhanced diffusion of arsenic and phosphorus in near-intrinsic 〈100〉 silicon
Applied Physics Letters, 1978
Activation analytical investigation of contamination and cross-contamination in ion implantation
Journal of Electronic Materials, 1978
A Quantitative Model for the Diffusion of Phosphorus in Silicon and the Emitter Dip Effect
Journal of the Electrochemical Society, 1977
Excess vacancy generation by E-center dissociation in the case of phosphorus diffusion in silicon
Journal of Applied Physics, 1977
Emitter Dip Effect by Low Temperature Heat‐Treatment of Arsenic‐Diffused Layer
Journal of the Electrochemical Society, 1976
The Diffusion of Ion‐Implanted Arsenic in Silicon
Journal of the Electrochemical Society, 1975
Cooperative effects between arsenic and boron in silicon during simultaneous diffusions from ion implanted and chemical source predepositions
Solid-State Electronics, 1974