Title :
An Improved Cut-Off Frequency Model With a Modified Small-Signal Equivalent Circuit in Graphene Field-Effect Transistors
Author :
Lingfei Wang ; Ling Li ; Nianduan Lu ; Zhuoyu Ji ; Wei Wang ; Zhiwei Zong ; Guangwei Xu ; Ming Liu
Author_Institution :
Lab. of Nanofabrication & Novel Devices Integration Technol. & the Key Lab. of Microelectron. Devices & Integrated Technol., Inst. of Microelectron., Beijing, China
Abstract :
An improved cut-off frequency model of a modified equivalent circuit of graphene field-effect transistors, which incorporates the additional capacitive effect physically present due to dipole layer between the metal and the graphene, is proposed. The original equivalent circuit is not accurate for a large separation distance dipole layer. Based on the improved equivalent circuit model, a more accurate parameter extraction by two-port analysis is possible, and the cut-off frequency will be more accurate particularly for largely separated dipole layer near the Dirac point. Considering the dipole layer, the equivalent circuit is never investigated before, and the cut-off frequency model shows good agreement with experiments.
Keywords :
equivalent circuits; field effect transistors; graphene devices; Dirac point; capacitive effect; cut-off frequency model; graphene field-effect transistors; parameter extraction; separated dipole layer; small-signal equivalent circuit; two-port analysis; Capacitance; Cutoff frequency; Equivalent circuits; Field effect transistors; Graphene; Cut-off frequency analysis; contact capacitance; cut-off frequency analysis; graphene field-effect transistors; modified small-signal circuit model; two-port analysis; two-port analysis.;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2015.2489205
