Role of Interface Charges on High-k Based Poly-Si and Metal Gate Nano-Scale MOSFETs

Role of Interface Charges on High-k Based Poly-Si and Metal Gate Nano-Scale MOSFETs

The characteristics of typical sub-100 nm high K gate dielectrics MOSFET with different gate materials are simulated by two dimensional device simulators (ATLAS and ATHENA). The impact of interface charges on the characteristics of Poly-Si and TiN metal gate MOSFETs are investigated. The simulation...

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Bibliographic Details
Main Authors: N. Shashank, Vikram Singh, W.R. Taube, R.K. Nahar
Format: Article
Language:English
Published: Sumy State University 2011-01-01
Series:Журнал нано- та електронної фізики
Subjects:
MOSFET
High-k
Interface charges
Mobility
Metal gates.
Online Access:http://jnep.sumdu.edu.ua/download/numbers/2011/1,%20Part%205/articles/jnep_2011_V3_N1(Part5)_0937-0941.pdf
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Summary:The characteristics of typical sub-100 nm high K gate dielectrics MOSFET with different gate materials are simulated by two dimensional device simulators (ATLAS and ATHENA). The impact of interface charges on the characteristics of Poly-Si and TiN metal gate MOSFETs are investigated. The simulation results shows that, at high interface charge densities, the devices with Poly-Si gate degrade much compared to metal gate MOSFET structures. Emphasis is given to study the mobility degradation which stands as a major hurdle with the implementation of high-k dielectrics in nano-scale devices. The advantages of using Watt model over other models for the extraction of channel mobility is also clearly explained. The performance of the high-k MOSFET with metal electrode and poly-silicon electrode is also compared for various interface state charges.
ISSN:2077-6772

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