Investigation of Microdevice Performance by Transient Heat Transfer Simulation

Investigation of Microdevice Performance by Transient Heat Transfer Simulation

The present work considers transient electrothermal simulation of sub-micrometer silicon device and electron-phonon interactions in electrical and thermal fields. A coupled thermal and electrical model is developed for a silicon   n  n  n structure consisting of the hydrodynamic equations for...

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Main Authors: A. Saboonchi, J. Ghasemzadeh
Format: Article
Language:English
Published: Isfahan University of Technology 2010-01-01
Series:Journal of Applied Fluid Mechanics
Subjects:
Hydrodynamic
Semiconductor
Heat transfer
Phonon
Electron
Micro scale
Online Access:http://jafmonline.net/JournalArchive/download?file_ID=15244&issue_ID=201
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spelling doaj-6d568ed36b034ab3a04777bd3e6b1a452020-11-24T23:56:27ZengIsfahan University of Technology Journal of Applied Fluid Mechanics1735-36452010-01-0131714.Investigation of Microdevice Performance by Transient Heat Transfer SimulationA. Saboonchi0J. GhasemzadehIUTThe present work considers transient electrothermal simulation of sub-micrometer silicon device and electron-phonon interactions in electrical and thermal fields. A coupled thermal and electrical model is developed for a silicon   n  n  n structure consisting of the hydrodynamic equations for electron transport and energy conservation equations for phonon. The results indicate that, for one electric field the lattice temperature gradient has significant effect on the magnitude of electric current. The transient phonon temperature affects the device performance due to the change of mobility and gradient temperature of electron. At an external voltage of 0.1 V, calculations show that an increase in the junction boundary temperature by 100 °C, cause increasing the drain current by 16% at 3 picosecond and decreases it by 17% up to steady state condition.http://jafmonline.net/JournalArchive/download?file_ID=15244&issue_ID=201Hydrodynamic Semiconductor Heat transfer Phonon Electron Micro scale
collection DOAJ
language English
format Article
sources DOAJ
author A. Saboonchi
J. Ghasemzadeh
spellingShingle A. Saboonchi
J. Ghasemzadeh
Investigation of Microdevice Performance by Transient Heat Transfer Simulation
Journal of Applied Fluid Mechanics
Hydrodynamic
Semiconductor
Heat transfer
Phonon
Electron
Micro scale
author_facet A. Saboonchi
J. Ghasemzadeh
author_sort A. Saboonchi
title Investigation of Microdevice Performance by Transient Heat Transfer Simulation
title_short Investigation of Microdevice Performance by Transient Heat Transfer Simulation
title_full Investigation of Microdevice Performance by Transient Heat Transfer Simulation
title_fullStr Investigation of Microdevice Performance by Transient Heat Transfer Simulation
title_full_unstemmed Investigation of Microdevice Performance by Transient Heat Transfer Simulation
title_sort investigation of microdevice performance by transient heat transfer simulation
publisher Isfahan University of Technology
series Journal of Applied Fluid Mechanics
issn 1735-3645
publishDate 2010-01-01
description The present work considers transient electrothermal simulation of sub-micrometer silicon device and electron-phonon interactions in electrical and thermal fields. A coupled thermal and electrical model is developed for a silicon   n  n  n structure consisting of the hydrodynamic equations for electron transport and energy conservation equations for phonon. The results indicate that, for one electric field the lattice temperature gradient has significant effect on the magnitude of electric current. The transient phonon temperature affects the device performance due to the change of mobility and gradient temperature of electron. At an external voltage of 0.1 V, calculations show that an increase in the junction boundary temperature by 100 °C, cause increasing the drain current by 16% at 3 picosecond and decreases it by 17% up to steady state condition.
topic Hydrodynamic
Semiconductor
Heat transfer
Phonon
Electron
Micro scale
url http://jafmonline.net/JournalArchive/download?file_ID=15244&issue_ID=201
work_keys_str_mv AT asaboonchi investigationofmicrodeviceperformancebytransientheattransfersimulation
AT jghasemzadeh investigationofmicrodeviceperformancebytransientheattransfersimulation
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