Applied Sciences (Apr 2020)

Comparison of Temperature Dependent Carrier Transport in FinFET and Gate-All-Around Nanowire FET

  • Soohyun Kim,
  • Jungchun Kim,
  • Doyoung Jang,
  • Romain Ritzenthaler,
  • Bertrand Parvais,
  • Jerome Mitard,
  • Hans Mertens,
  • Thomas Chiarella,
  • Naoto Horiguchi,
  • Jae Woo Lee

DOI
https://doi.org/10.3390/app10082979
Journal volume & issue
Vol. 10, no. 8
p. 2979

Abstract

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The temperature dependent carrier transport characteristics of n-type gate-all-around nanowire field effect transistors (GAA NW-FET) on bulk silicon are experimentally compared to bulk fin field effect transistors (FinFET) over a wide range of temperatures (25–125 °C). A similar temperature dependence of threshold voltage (VTH) and subthreshold swing (SS) is observed for both devices. However, effective mobility (μeff) shows significant differences of temperature dependence between GAA NW-FET and FinFET at a high gate effective field. At weak Ninv (= 5 × 1012 cm2/V∙s), both GAA NW-FET and FinFET are mainly limited by phonon scattering in μeff. On the other hand, at strong Ninv (= 1.5 × 1013 cm2/V∙s), GAA NW-FET shows 10 times higher dμeff/dT and 1.6 times smaller mobility degradation coefficient (α) than FinFET. GAA NW-FET is less limited by surface roughness scattering, but FinFET is relatively more limited by surface roughness scattering in carrier transport.

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