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Compact Model of Nanowire Tunneling FETs Including Phonon-Assisted Tunneling and Quantum Capacitance

A physics-based compact model for silicon gate-all-around (GAA) nanowire tunneling FETs (NW-tFETs) with good accuracy has been developed by considering Phonon-Assisted Tunneling (PAT) and transition from Quantum Capacitance Limit (QCL) to Classical Limit (CL) during the device-size scaling. The impact of PAT results in the broadening of a single electron-energy level to an energy band with density-of-states (DOS) distribution of Lorentzian shape. As a consequence, the tunneling probability at the edge of tunneling window no longer changes abruptly from zero to having a finite value. By adjusting the parameters in the Lorentzian function, an accurate fitting to the measured transfer characteristics in the subthreshold region is made possible. Besides, with an analytical formula to calculate the channel potential, the model is able to cover naturally the transition from QCL to CL regime when the device size is scaled. Furthermore, on-voltage is defined to facilitate the modeling and fitting processes. Comparisons with the experimental data demonstrate the model accuracy across all device operation regions and the flexibility in model parameter extraction is also shown.

preprint2014arXivOpen access
Qiming ShaoCan ZhaoJinyu ZhangLi ZhangZhiping Yu
cond-mat.mes-hall
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Open access5 authors1 topic
Imported metadata coverageMissing code, dataset, citation and institution fields are tracked without dominating the paper.Details
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Qiming ShaoCan ZhaoJinyu ZhangLi ZhangZhiping Yu

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