Influence of the Generation Distribution on the Calculated EBIC Contrast of Line Defects

Donolato, C.; Venturi, Paolo

doi:10.1002/pssa.2210730211

Cited by 23 publications

(8 citation statements)

References 14 publications

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“…In order to submit a result simply evaluable, the spatial dose distribution is to be included not only by results from measurements and Monte Carlo calculations but also by an analytic description. Unlike Wittry (1958) and Fitting et a1 (1977) who confine their analytic description of the generation volume to the diffusion part, and unlike Donolato (1981) and Donolato and Venturi (1982) who express it approximately by the penetration part only, this paper considers both parts.…”

Section: Knowledge Of the Interaction Volumementioning

confidence: 99%

Kilovolt electron energy loss distribution in Si

Werner¹,

Koch²,

Oelgart³

1988

J. Phys. D: Appl. Phys.

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Using the electron-beam-induced barrier currents and the Monte Carlo simulation methods it was possible to determine the depth-dose function as well as the distribution function of the generation source for electron-hole pairs perpendicular to the injection direction. The depth-dose function was compared with results obtained by Everhart and Hoff. By fitting the simulated barrier current profile to the measured one the authors could estimate the relatively small width of the space charge region of the p-n junction employed for the measurements. Furthermore, the spatial dose distribution of Si was described in an analytic approximation of the Monte Carlo simulation using two Gaussian functions concerned with the spreading of the penetrating electron beam and the diffusion of the primary electrons within the target, respectively. This approximation was based on treatments of the scattering process of the primary electrons given by Bethe and co-workers, Bothe and Archard.

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Section: Knowledge Of the Interaction Volumementioning

confidence: 99%

Kilovolt electron energy loss distribution in Si

Werner¹,

Koch²,

Oelgart³

1988

J. Phys. D: Appl. Phys.

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“…where Zo < 1 8. pm, y ( Z )e -(Z -W) /Lp If we assume that part of the dislocation situated inside the depletion region does not contribute to the contrast or this contribution does not practically depend on W the part of the contrast associated with the dislocation section situated between W and Zo is and Then…”

mentioning

confidence: 99%

EBIC Investigastion of the Electrical Activity of Dislocations with Different Impurity Atmospheres in Si

Bondarenko

Yakimov

1990

phys. stat. sol. (a)

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The dependences of EBIC contrast on beam current and applied bias voltage are investigated for dislocations with different impurity atmosphere. It is shown that the results obtained may be explained taking into account the recombination via point defects in dislocation atmospheres both, for charged and uncharged dislocations. Qualitative models describing the recombination activity of dislocations in Si are proposed.

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“…When the CL characterization is aimed at the determination of distribution profiles with a strong three-dimensional character (i.e., with non-negligible components along the in-depth zdirection), a different type of PRF, as given by Donolato,11) should be used. The differential contribution of each portion of volume of the luminescent probe (i.e., the PRF) was then obtained from calculating the first derivative of the normalized CL intensity.…”

Section: Methodsmentioning

confidence: 99%

Visualization of microscopic stress fields in silica glass in the scanning electron microscope

Pezzotti

Leto

Porporati

2008

J. Ceram. Soc. Japan

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Quantitative measurements were made in silica glass of highly graded stress fields, as they developed: (i) in the K-dominated zone ahead of the tip of a median-type indentation micro-crack; and, (ii) at a silicon-silica interface of a metal-oxide semiconductor (MOS) device. Stress fields could be visualized on a microscopic scale using a field-emission scanning electron microscope (FE-SEM) equipped with a spectrally resolved cathodoluminescence (CL) device, according to piezospectroscopic (PS) assessments. The peculiarity of this newly proposed PS assessment resides in the fact that the performed CL/PS analysis exploited a peculiar luminescence emitted by optically active oxygen point defects in silica glass.

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Influence of the Generation Distribution on the Calculated EBIC Contrast of Line Defects

Cited by 23 publications

References 14 publications

Kilovolt electron energy loss distribution in Si

Kilovolt electron energy loss distribution in Si

EBIC Investigastion of the Electrical Activity of Dislocations with Different Impurity Atmospheres in Si

Visualization of microscopic stress fields in silica glass in the scanning electron microscope

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