Analysis fin field-effect transistor design with high-k insulators

Authors

  • Arsen Ahmed Mohammed Engineering Faculty, Electrical dep, Kirkuk, Iraq
  • Hüseyin Demirel Engineering Faculty, Electrical dep, KARABUK, Turkye
  • Zaidoon Khalaf Mahmood University of Kirkuk, Iraq

DOI:

https://doi.org/10.5377/nexo.v36i06.17445

Keywords:

High-k insulators, short circuit current, electrical and chemical sensing, improved dispersion voltage current conveyor, Field Effect Transistor, fractional oscillator, lossless isolated inductor simulator, band-pass filter

Abstract

In this article, we integrate a Fin Field Effect Transistor with high-k insulators to investigate the optimal design for chemical field effect transistors in order to give higher inductance (resulting in a higher transmission relationship), improved amplitude, and outcome-based substance. pH sensing was utilised to test the design. We investigated the responsiveness and linearity of silicon dioxide, oxide, and hafnium oxide as pH-sensing electromagnetic materials, as well as their chemical resistance in various acids. The device’s huge component ratio and fin shape allow for high currents and a more dependable planar conducting channel than conventional silicon nanowires. The hafnium oxide Fin Field Effect Transistor architecture delivered the greatest results, with the most linear features of generation and turnover and a broader dynamic range. The chemical stability of hafnium oxide was also the best. As a result, we believe the large component ratio Fin Field Effect Transistors/high-k dielectric combination can provide the optimal process fairness for Field-Effect Transistor-based sensors. The authors propose a novel seamless embedded induction approximation with a quaternary resonator. Only one deleterious modified divergent voltage current conveyor, one of the suggested quaternary synthesisers, uses a Z input, a rectifier, and two crossed capacitive. In the intended unidirectional isolated circuit emulator, just one customised split electrical output feeder with a sole Z electrode, two switches, and the first neutral capacitor are used. The suggested seamless rooted circuit simulation just requires a specific passive constituent compatibility criterion. In addition, the suggested lossless grounded inductor simulator yields a ring filter application. To illustrate the performance of all the circuits, a variety of models using the LTSPICE software, the cadence virtuoso 7nm parameter, and data analyses were performed.

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Published

2023-12-31

How to Cite

Ahmed Mohammed, A., Demirel, H., & Khalaf Mahmood, Z. (2023). Analysis fin field-effect transistor design with high-k insulators. Nexo Scientific Journal, 36(06), 892–905. https://doi.org/10.5377/nexo.v36i06.17445

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