Low-frequency noise behavior of SiO/sub 2/--HfO/sub 2/ dual-layer gate dielectric nMOSFETs with different interfacial oxide thickness

Abstract

The low-frequency noise has been studied in nMOSFETs with an HfO/sub 2/--SiO/sub 2/ gate stack, for different thickness of the SiO/sub 2/ interfacial layer (IL). It is observed that the 1/f-like noise in linear operation, is about 50 times higher in the HfO/sub 2/ devices with a 0.8-nm chemical oxide IL, compared with the 4.5-nm thermal oxide reference n-channel transistors. This is shown to relate to the correspondingly higher trap density in the dielectric material. In addition, it is demonstrated that the noise rapidly reduces with increasing thickness of the IL. From the results for a 2.1-nm SiO/sub 2/ IL, it is derived that at a certain gate voltage range, electron tunneling to a defect band in the HfO/sub 2/ layer may contribute to a pronounced increase in the flicker noise.