Estudo do efeito de elevação atípica da transcondutância na região linear de polarização em dispositivos SOI nMOSFETS ultra-submicrométricos. / Study of gate induced floating body effect in the linear bias region in deep submicrometer nMOSFETs devices.
AUTOR(ES)
Paula Ghedini Der Agopian
DATA DE PUBLICAÇÃO
2008
RESUMO
This work presents the study of the Gate Induced Floating Body Effect (GIFBE) that occurs in the SOI MOSFET technology. This study has been performed based on experimental results and on numerical simulations, which were an essential auxiliary tool to obtain a physical insight of this effect. Besides the contribution on the physical explanation of this phenomenon, in this work, the floating body effect was evaluated for different structures (single gate and twin-gate transistors), different technologies (130nm and 65nm SOI CMOS technology) and as a function of the temperature (100K to 450K). From the study of the single gate devices, it was evaluated the gate tunneling current influence on GIFBE, the body potential in the neutral region, the recombination rate, the front gate oxide thickness reduction impact, besides the physical dimensions of the transistor. In the performed analysis, taking into account the channel length reduction, it was verified that the GIFBE tends to be less important for ultra-submicron devices. The GIFBE only occurs for fully depleted devices when the second interface is accumulated. In this situation, the floating body effect influence on fully depleted devices was also studied for both technologies (65nm and 130nm). The twin-gate devices analysis, that traditionally are used in order to minimize the Kink effect, show a GIFBE reduction for this structure when it is compared to the single gate one. This enhance in the electrical characteristics is due to the series resistance increase that is intrinsic of this structures. When the temperature variation from 100K to 450K was analyzed, it was obtained the C shape behavior for the floating body effect due to a competition between the recombination process and the effective mobility degradation factor. A first evaluation of the GIFBE occurrence in new devices was also performed. When the focus is the strained silicon transistor, a occurrence of GIFBE was obtained for a lower gate voltage. Although, the GIFBE occurs earlier for strained transistor. This effect is less pronounced in this device because it presents strong effective mobility degradation. When the focus is FinFETs, the results show that although this device was fabricated with a high-k gate dielectric, the GIFBE still occurs and is strongly dependent on the device channel width.
ASSUNTO(S)
soi technology strained transistors finfets transconductance second peak circuitos integrados mos gate induced floating body effect microeletrônica
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