Micromachines (Oct 2023)

A High-Performance InGaAs Vertical Electron–Hole Bilayer Tunnel Field Effect Transistor with P<sup>+</sup>-Pocket and InAlAs-Block

  • Hu Liu,
  • Peifeng Li,
  • Xiaoyu Zhou,
  • Pengyu Wang,
  • Yubin Li,
  • Lei Pan,
  • Wenting Zhang,
  • Yao Li

DOI
https://doi.org/10.3390/mi14112049
Journal volume & issue
Vol. 14, no. 11
p. 2049

Abstract

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To give consideration to both chip density and device performance, an In0.53Ga0.47As vertical electron–hole bilayer tunnel field effect transistor (EHBTFET) with a P+-pocket and an In0.52Al0.48As-block (VPB-EHBTFET) is introduced and systematically studied by TCAD simulation. The introduction of the P+-pocket can reduce the line tunneling distance, thereby enhancing the on-state current. This can also effectively address the challenge of forming a hole inversion layer in an undoped InGaAs channel during device fabrication. Moreover, the point tunneling can be significantly suppressed by the In0.52Al0.48As-block, resulting in a substantial decrease in the off-state current. By optimizing the width and doping concentration of the P+-pocket as well as the length and width of the In0.52Al0.48As-block, VPB-EHBTFET can obtain an off-state current of 1.83 × 10−19 A/μm, on-state current of 1.04 × 10−4 A/μm, and an average subthreshold swing of 5.5 mV/dec. Compared with traditional InGaAs vertical EHBTFET, the proposed VPB-EHBTFET has a three orders of magnitude decrease in the off-state current, about six times increase in the on-state current, 81.8% reduction in the average subthreshold swing, and stronger inhibitory ability on the drain-induced barrier-lowering effect (7.5 mV/V); these benefits enhance the practical application of EHBTFETs.

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