Title :
Polarity dependent gate tunneling currents in dual-gate CMOSFETs
Author :
Shi, Ying ; Ma, T.P. ; Prasad, Sharad ; Dhanda, Sumit
Author_Institution :
Dept. of Electr. Eng., Yale Univ., New Haven, CT, USA
fDate :
11/1/1998 12:00:00 AM
Abstract :
Polarity dependence of the gate tunneling current in dual-gate CMOSFETs is studied over a gate oxide range of 2-6 nm. It is shown that, when measured in accumulation, the Ig versus Vg characteristics for the p+/pMOSFET are essentially identical to those for the n+/nMOSFET; however, when measured in inversion, the p+/pMOSFET exhibits much lower gate current for the same |Vg|. This polarity dependence is explained by the difference in the supply of the tunneling electrons. The carrier transport processes in p+/pMOSFET biased in inversion are discussed in detail. Three tunneling processes are considered: (1) valence band hole tunneling from the Si substrate; (2) valence band electron tunneling from the p+-polysilicon gate; and (3) conduction band electron tunneling from the p+-polysilicon gate. The results indicate that all three contribute to the gate tunneling current in an inverted p+/pMOSFET, with one of them dominating in a certain voltage range
Keywords :
CMOS integrated circuits; MOSFET; conduction bands; leakage currents; tunnelling; valence bands; 2 to 6 nm; Ig-Vg characteristics; Si; Si substrate; accumulation mode; carrier transport processes; conduction band electron tunneling; dual-gate CMOSFETs; gate oxide range; inversion mode; n+/nMOSFET; p+-polysilicon gate; p+/pMOSFET; polarity dependence; polarity dependent gate tunneling currents; tunneling electrons; valence band electron tunneling; valence band hole tunneling; CMOSFETs; Charge carrier processes; Current measurement; Electrons; Helium; Leakage current; MOSFET circuits; Silicon; Tunneling; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
