Performance analysis of junctionless carbon nanotube field effect transistors using NEGF formalism

Abstract

This paper presents the simulation study of a junctionless carbon nanotube field effect transistor (JL-CNTFET) and a comparison is made with the conventional CNTFET using the atomistic scale simulation, within the non-equilibrium Green’s function (NEGF) formalism. In order to have a comprehensive analysis, both analog and digital parameters of the device are studied. Results have shown that JL-CNTFET with respect to C-CNTFET shows slightly higher [Formula: see text] ratio about two times larger than that of C-CNTFET, smaller electric field along channel more than three order of magnitude and reduced tunneling current about 100 times. In addition, the investigation of analog properties of both devices has exhibited that junctionless structure has a transconductance about two times and an intrinsic gain of 15 dB larger than C-CNTFET in same bias condition which makes JL-CNTFET a promising candidate for low voltage analog applications.