Model for electrical tree initiation in epoxy resin

Wu, Kai; Dissado, L.A.

doi:10.1109/tdei.2005.1511091

Cited by 58 publications

(2 citation statements)

References 19 publications

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“…At present, the reason for the difference in the dependence of on the accumulated charge, even when the same MgO film electrode is used, is not yet fully understood. However, we note with interest Massine et al's proposal 26) of the existence of shallow traps 27) in dielectrics, which might affect the accumulated charge on the MgO film electrode.…”

Section: Discussionmentioning

confidence: 70%

Secondary Ionization Coefficient of MgO and Accumulated Charge

Suzuki

Sekizawa

Kashiwagi

2011

Jpn. J. Appl. Phys.

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The (111)-oriented chemical-vapor-deposited diamond homoepitaxial layers with low defect density exhibited well-resolved free-exciton transitions in cathodoluminescence at 13 K and a sharp peak at 1332 cm À1 (linewidth: 1.9 cm À1 ) in Raman scattering. Furthermore, using these (111) layers, we fabricated metal-semiconductor field-effect transistors (FETs). FETs with an 11-mm-long gate exhibited a maximum drain current of 24 mA/mm and maximum transconductance of 14 mS/mm. These values are of the same order as those for the (001) orientation.

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Section: Discussionmentioning

confidence: 70%

Secondary Ionization Coefficient of MgO and Accumulated Charge

Suzuki

Sekizawa

Kashiwagi

2011

Jpn. J. Appl. Phys.

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“…The electrons, which are trapped in the shallow traps of the dielectric surface from the gas gap during the previous discharge, are easier to remove than the intrinsic ones. The deepness of the shallow traps is typically 1-2 eV from the void level [27] while the valence band is at 6-8 eV [28]. The cooled dielectric helps the trapped electrons to avoid escape prematurely [29], i.e., the heated dielectric helps to rapidly produce the secondary electrons.…”

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confidence: 99%

Very large-scale gap distances of atmospheric pressure dielectric barrier glow discharge using semiconductor materials

Wang

Xue

Fan

et al. 2021

EPL

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Very large-scale gap distances of atmospheric pressure dielectric barrier discharge (DBD) in glow mode are obtained through semiconductor materials. The maximum value of the gap distance is up to 70 mm. Based on the feature of the cathode sheath, Auger neutralization theory, the trapped electron and the accumulated charge in the DBD system, the secondary electron emission is one of the primary reasons for very large-scale gap distances of the DBD to produce glow discharge. Furthermore, the contribution of the effective capacitance, the gas voltage and the discharge power are also discussed. Significant for the research are the development and the practical applications of atmospheric pressure glow discharge in the DBD with very large-scale gap distances.

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Electrical Trees in Solids

Dissado

Montanari

Mazzanti

2014

Wiley Encyclopedia of Electrical and Electronics Engineering

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Electrical trees are branched degradation structures caused by field enhancing defects in insulating materials and are a common precursor to their failure. In this article we describe their shape and physical nature, and discuss the mechanism whereby they are generated in the insulating material together with a number of theoretical models for their formation. The influence of a range of physical factors upon their initiation and propagation is outlined and the use of partial discharges in their diagnosis briefly described. The article ends with a statement of unresolved questions and recent work in this area which is focussed on the emerging nano‐composite materials.

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Model for electrical tree initiation in epoxy resin

Cited by 58 publications

References 19 publications

Secondary Ionization Coefficient of MgO and Accumulated Charge

Secondary Ionization Coefficient of MgO and Accumulated Charge

Very large-scale gap distances of atmospheric pressure dielectric barrier glow discharge using semiconductor materials

Electrical Trees in Solids

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