Title of article
Prediction of barrier inhomogeneities and carrier transport in Ni-silicided Schottky diode
Author/Authors
A.R. Saha، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
5
From page
3933
To page
3937
Abstract
Based on Quantum Mechanical (QM) carrier transport and the effects of interface states, a theoretical model has been developed to predict the
anomalous current–voltage (I–V) characteristics of a non-ideal Ni-silicided Schottky diode at low temperatures. Physical parameters such as barrier
height, ideality factor, series resistance and effective Richardson constant of a silicided Schottky diode were extracted from forward I–V
characteristics and are subsequently used for the simulation of both forward and reverse I–V characteristics using a QM transport model in which
the effects of interface state and bias dependent barrier reduction are incorporated. The present analysis indicates that the effects of barrier
inhomogeneity caused by incomplete silicide formation at the junction and the interface states may change the conventional current transport
process, leading to anomalous forward and reverse I–V characteristics for the Ni-silicided Schottky diode.
Keywords
Carrier transport , Barrier inhomogeneity , Schottky diode , Quantum mechanical
Journal title
Applied Surface Science
Serial Year
2006
Journal title
Applied Surface Science
Record number
1001928
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