The Numerical Modeling for Electrical Behavior of Graphene Nanoribbon in the Present of Optical Detection

A physical model is presented for GNR based photo detector. The photo detector structure is photodiode in which GNR is inserted between two electrodes as a tool for changing pick frequency of absorption. Optical properties of GNR discussed using tight-binding approximation and DOS coupled with condu...

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Main Authors: Sheikhi, M.H., Berahman, M., Alaei, R.
Format: Conference Proceeding
Language:English
Subjects:
Absorption
Atomic layer deposition
Conductivity
Finite impulse response filter
Graphene Nanoribbon
Infrared detectors
Nanoscale devices
Numerical models
Optical computing
Optical Detection
Optical detectors
Optical properties
Wave functions
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Berahman, M.
Alaei, R.
description A physical model is presented for GNR based photo detector. The photo detector structure is photodiode in which GNR is inserted between two electrodes as a tool for changing pick frequency of absorption. Optical properties of GNR discussed using tight-binding approximation and DOS coupled with conductivity. Our calculations have shown that GNR based photo detectors have better characteristics than semiconductor devices and they have appropriate characteristic for communication applications.
doi_str_mv 10.1109/ICCEE.2009.220
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Absorption
Atomic layer deposition
Conductivity
Finite impulse response filter
Graphene Nanoribbon
Infrared detectors
Nanoscale devices
Numerical models
Optical computing
Optical Detection
Optical detectors
Optical properties
Wave functions
title The Numerical Modeling for Electrical Behavior of Graphene Nanoribbon in the Present of Optical Detection
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