IEEE Journal of the Electron Devices Society (Jan 2015)

Source/Drain Doping Effects and Performance Analysis of Ballistic III-V n-MOSFETs

  • Raseong Kim,
  • Uygar E. Avci,
  • Ian A. Young

DOI
https://doi.org/10.1109/JEDS.2014.2363389
Journal volume & issue
Vol. 3, no. 1
pp. 37 – 43

Abstract

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Effects of source/drain (S/D) doping density (NSD) on the ballistic performance of III-V nanowire (NW) n-channel metal-oxide-semiconductor field-effect transistors (n-MOSFETs) are explored through atomistic quantum transport simulation. Different III-V materials (InAs, GaAs) and transport directions (<;100>, <;110>) are considered with Si included for benchmarking for a gate length of 13 nm. For III-V's, depending on the operating condition (OFF-current target for a given supply voltage), there exists an optimum NSD that maximizes ON-current (ION) by balancing source exhaustion versus tunneling leakage. For InAs, sub-threshold swing degrades significantly with increasing NSD due to the light effective mass (m*) and source-drain tunneling, so the optimum NSD is low. For GaAs, such dependence is much weaker due to the larger m*, and the optimum NSD is higher. With optimized NSD's, InAs shows low ballistic ION due to the low density-of-state (DOS) whereas GaAs NW with <;110> transport direction shows good ballistic ION due to the improved DOS with still high injection velocity, making it a better candidate for high performance device.

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