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Paper detail

Dopant metrology in advanced FinFETs

Ultra-scaled FinFET transistors bear unique fingerprint-like device-to-device differences attributed to random single impurities. This paper describes how, through correlation of experimental data with multimillion atom tight-binding simulations using the NEMO 3-D code, it is possible to identify the impurity's chemical species and determine their concentration, local electric field and depth below the Si/SiO$_{\mathrm{2}}$ interface. The ability to model the excited states rather than just the ground state is the critical component of the analysis and allows the demonstration of a new approach to atomistic impurity metrology.

preprint2011arXivOpen access
G. P. LansbergenR. RahmanG. C. TettamanziJ. VerduijnL. C. L. HollenbergG. KlimeckS. Rogge
cond-mat.mes-hall
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G. P. LansbergenR. RahmanG. C. TettamanziJ. VerduijnL. C. L. HollenbergG. KlimeckS. Rogge

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