A global modeling approach of the leakage phenomena in dielectrics

A global modeling approach of the leakage phenomena in dielectrics

Thanks to its low noise level, the LSBB environment provides particular environment to carry out high quality electrical characterizations. In this paper, we propose a complete modeling approach of the experimental results from our experimental microelectronic setup. The tested device is a Metal Oxi...

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Main Authors: Postel-Pellerin Jérémy, Micolau Gilles, Chiquet Philippe, Joelson Maminirina, Decitre Jean-Baptiste
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/14/e3sconf_i-dust2018_05002.pdf
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spelling doaj-6ebc3f42163644259c03ade16491883c2021-02-02T09:23:02ZengEDP SciencesE3S Web of Conferences2267-12422019-01-01880500210.1051/e3sconf/20198805002e3sconf_i-dust2018_05002A global modeling approach of the leakage phenomena in dielectricsPostel-Pellerin Jérémy0Micolau Gilles1Chiquet Philippe2Joelson Maminirina3Decitre Jean-Baptiste4Aix-Marseille UniversityAvignon University, EMMAH, UMR 1114, INRA-UAPVAix-Marseille UniversityAvignon University, EMMAH, UMR 1114, INRA-UAPVLSBB, UMS 3538, UNS/UAPV/CNRS/AMU, La Grande CombeThanks to its low noise level, the LSBB environment provides particular environment to carry out high quality electrical characterizations. In this paper, we propose a complete modeling approach of the experimental results from our experimental microelectronic setup. The tested device is a Metal Oxide Semiconductor (MOS) floating gate capacitor which can be found in electrostatic non volatile memories such as Flash. The main idea is to characterize and model the leakage current through the tunnel oxide. We proposed, in a previous work, a model for charge loss considering a fractional Poisson process, involving only two parameters, expressed as a Mittag-Leffler (ML) function. Here, we also propose a combo of Fowler-Nordheim (FN) and Poole-Frenkel (PF) models for leakage currents, based on tunnel effect transport through the oxide. It gives the leakage current on a medium-to-long scale of time while the ML model can possibly take into account a shorter time step. The perspective is to find a relationship between these different models, used in various fields, to propose a generic model of phenomena involving leakage in complex and porous materials at different scales of time and space.https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/14/e3sconf_i-dust2018_05002.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Postel-Pellerin Jérémy
Micolau Gilles
Chiquet Philippe
Joelson Maminirina
Decitre Jean-Baptiste
spellingShingle Postel-Pellerin Jérémy
Micolau Gilles
Chiquet Philippe
Joelson Maminirina
Decitre Jean-Baptiste
A global modeling approach of the leakage phenomena in dielectrics
E3S Web of Conferences
author_facet Postel-Pellerin Jérémy
Micolau Gilles
Chiquet Philippe
Joelson Maminirina
Decitre Jean-Baptiste
author_sort Postel-Pellerin Jérémy
title A global modeling approach of the leakage phenomena in dielectrics
title_short A global modeling approach of the leakage phenomena in dielectrics
title_full A global modeling approach of the leakage phenomena in dielectrics
title_fullStr A global modeling approach of the leakage phenomena in dielectrics
title_full_unstemmed A global modeling approach of the leakage phenomena in dielectrics
title_sort global modeling approach of the leakage phenomena in dielectrics
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2019-01-01
description Thanks to its low noise level, the LSBB environment provides particular environment to carry out high quality electrical characterizations. In this paper, we propose a complete modeling approach of the experimental results from our experimental microelectronic setup. The tested device is a Metal Oxide Semiconductor (MOS) floating gate capacitor which can be found in electrostatic non volatile memories such as Flash. The main idea is to characterize and model the leakage current through the tunnel oxide. We proposed, in a previous work, a model for charge loss considering a fractional Poisson process, involving only two parameters, expressed as a Mittag-Leffler (ML) function. Here, we also propose a combo of Fowler-Nordheim (FN) and Poole-Frenkel (PF) models for leakage currents, based on tunnel effect transport through the oxide. It gives the leakage current on a medium-to-long scale of time while the ML model can possibly take into account a shorter time step. The perspective is to find a relationship between these different models, used in various fields, to propose a generic model of phenomena involving leakage in complex and porous materials at different scales of time and space.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2019/14/e3sconf_i-dust2018_05002.pdf
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