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1. Identity statement
Reference TypeJournal Article
Sitemtc-m16.sid.inpe.br
Holder Codeisadg {BR SPINPE} ibi 8JMKD3MGPCW/3DT298S
Identifier6qtX3pFwXQZ3r59YDa/FETFw
Repositorysid.inpe.br/iris@1916/2005/04.05.18.07   (restricted access)
Last Update2005:08.10.03.00.00 (UTC) administrator
Metadata Repositorysid.inpe.br/iris@1916/2005/04.05.18.08.01
Metadata Last Update2018:06.05.01.28.21 (UTC) administrator
Secondary KeyINPE-12954-PRE/8233
ISSN0378-4371
Citation KeyKishore:1993:TrInSe
TitleTransport-Equations in Inhomogeneous Semiconductors
ProjectMATCON: Física da matéria condensada
Year1993
MonthMay
Access Date2024, Apr. 28
Secondary TypePRE PI
Number of Files1
Size229 KiB
2. Context
AuthorKishore, Ram
Resume Identifier8JMKD3MGP5W/3C9JJ55
GroupLAS-INPE-MCT-BR
AffiliationInstituto Nacional de Pesquisas Espaciais, Laboratório Associado de Sensores e Materiais (INPE.LAS)
JournalPhysica A: Statistical Mechanics and its Applications
Volume196
Number1
Pages133-144
History (UTC)2005-08-10 13:29:55 :: sergio -> administrator ::
2006-09-28 22:34:56 :: administrator -> sergio ::
2008-01-07 12:49:42 :: sergio -> marciana ::
2008-03-27 14:41:15 :: marciana -> administrator ::
2008-06-10 22:03:00 :: administrator -> banon ::
2010-05-14 13:52:01 :: banon -> administrator ::
2018-06-05 01:28:21 :: administrator -> marciana :: 1993
3. Content and structure
Is the master or a copy?is the master
Content Stagecompleted
Transferable1
Content TypeExternal Contribution
KeywordsSENSORS AND MATERIALS
Semiconductors
Transport equation
Dependent band structure
Electrical corrent
Density
SENSORES E MATERIAIS
Semicondutores
Equação de transporte
Corrente elétrica
Densidade
AbstractA generalized equation for the transport of a physical quantity in inhomogeneous semiconductors is derived from the Boltzmann transport equation. The momentum and energy transport equations, obtained from this equation, extend the previous equations of Blotekjaer and Azoff to inhomogeneous semiconductors with nonparabolic band structure. The momentum transport equation is used to derive a steady state electric current density equation in the relaxation time approximation of the Boltzmann transport equation. It provides an alternative form of the electric current density equation, obtained earlier by the present author. The electric current density is expressed in terms of a generalized drift and various generalized diffusion terms. Explicit expressions of diffusion coefficients are obtained by making plausible approximations which, for the low electric field, gives the results of the first order theory of the Boltzmann transport equation.
AreaFISMAT
Arrangementurlib.net > BDMCI > Fonds > Produção anterior à 2021 > LABAS > Transport-Equations in Inhomogeneous...
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4. Conditions of access and use
Languageen
Target FileTransport-Equations.pdf
User Groupadministrator
banon
marciana
sergio
Visibilityshown
Copy HolderSID/SCD
Archiving Policydenypublisher denyfinaldraft24
Read Permissiondeny from all and allow from 150.163
5. Allied materials
Next Higher Units8JMKD3MGPCW/3ESR3H2
DisseminationWEBSCI; PORTALCAPES; COMPENDEX.
Host Collectionsid.inpe.br/banon/2003/08.15.17.40
6. Notes
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7. Description control
e-Mail (login)marciana
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