AI Article Synopsis
- The study investigates how the work function difference between source and drain side gate electrodes affects the performance of InGaAs p-TFET devices designed with dual material gates.
- By varying the work function of the drain side gate while keeping the source side fixed, the researchers found that the performance of the device changes based on this difference, impacting the electric field and carrier distribution.
- Results showed that a higher work function difference (∆ϕ = 1.02 eV) leads to low subthreshold slope and off-state current, making the device suitable for low power digital applications, while a lower work function difference (∆ϕ = 0.61 eV) optimizes the device for low power analog applications due to better
Article Abstract
In this study, we theoretically investigated the effect of step gate work function on the InGaAs p-TFET device, which is formed by dual material gate (DMG). We analyzed the performance parameters of the device for low power digital and analog applications based on the gate work function difference (∆ϕ) of the source (ϕ) and drain (ϕ) side gate electrodes. In particular, the work function of the drain (ϕ) side gate electrodes was varied with respect to the high work function of the source side gate electrode (Pt, ϕ = 5.65 eV) to produce the step gate work function. It was found that the device performance varies with the variation of gate work function difference (∆ϕ) due to a change in the electric field distribution, which also changes the carrier (hole) distribution of the device. We achieved low subthreshold slope (SS) and off-state current (I) of 30.89 mV/dec and 0.39 pA/µm, respectively, as well as low power dissipation, when the gate work function difference (∆ϕ = 1.02 eV) was high. Therefore, the device can be a potential candidate for the future low power digital applications. On the other hand, high transconductance (g), high cut-off frequency (f), and low output conductance (g) of the device at low gate work function difference (∆ϕ = 0.61 eV) make it a viable candidate for the future low power analog applications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8707473 | PMC |
| http://dx.doi.org/10.3390/nano11123166 | DOI Listing |
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