Daryoosh Dideban scite author profile

In this paper, a scheme of the germanene nanoribbon tunneling field effect transistor (GeNR-TFET) is proposed. The characteristics and analog performance of the device were theoretically investigated by exploiting the electrical properties of a germanene nanoribbon and applying the doping concentration in the source and drain regions at 300 K and 4 K temperatures. The device parameters were obtained using a non-equilibrium Green's function (NEGF) method within the tight binding (TB) Hamiltonian. The TB Hamiltonian was extracted from the density functional theory (DFT) through the Wannier function. We find that by increasing the doping concentration the I on current increases which leads to an improvement of the I on /I off ratio to 10 5 . Moreover, decreasing the temperature from 300 K to 4 K causes the I off to becometen times smaller. We find that the device output characteristic displays a negative differential conductance with a good peak-to-valley ratio which is improved by increasing the doping concentration. The analog performance of the device is also investigated in the subthreshold regime of operation by varying the doping concentration. It is observed that by increasing the device doping concentration, the analog figures of merit can be improved.

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A novel approach to the statistical generation of non-normal distributed PSP compact model parameters using a nonlinear power method

Kovac

Dideban

Cheng

et al. 2010

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Modeling and simulation of transistor and circuit variability and reliability

Asenov

Cheng

Dideban

et al. 2010

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Silicene field effect transistor with high on/off current ratio and good current saturation

2015

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