On the EBIC Contrast of Dislocations in Si

Castellani, Lucia; Gondi, P.; Patuelli, C.; Berti, R.

doi:10.1002/pssa.2210690230

Cited by 10 publications

(7 citation statements)

References 14 publications

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“…2) or in the bulk region alone when the contribution of the SCR becomes less important (second decrease in fig. 2); this latter case corresponds to the model of Donolato (1979). It could not be observed in our experiments owing to the lack of resolution beyond 30 kV, and to the impossibility of obtaining E , higher than 45 kV.…”

Section: Theoretical Ebic Curvesmentioning

confidence: 55%

“…6). This does not happen when the SCR is negligible; effectively, as shown by Donolato (1979), the shape of the curve is not altered by a change in L and/or T,/z. Furthermore, the contrast increases with L. …”

Section: Theoretical Ebic Curvesmentioning

confidence: 84%

“…Let us just write that I D , = -en.$ f (al, Az, zo, a2); I,, increases with Az, zo, and decreases when a1 and a2 increase. When a defect is located in the bulk region, the new carrier density Ap'(r) satisfies the modified continuity equation (Donolato 1978/79) where zD(r) is the reduced lifetime of holes inside V, . It will be taken as constant.…”

Section: Currents At the Dislocation Perpendicular To The Surfacementioning

confidence: 99%

“…The experimental values of the contrast are typically 5-10% and are simulated by taking E~ equal to about 50nm. The cylinder of radius c0 could therefore be assimilated to the space-charge cylinder around the dislocation line, E~ being the screening or Debye-Hiickel length 1 , (Castellani, Gondi, Patuelli and Berti 1982); it depends on the carrier concentration no as…”

Section: Recombination At Dislocationsmentioning

confidence: 99%

“…Theories of EBIC contrast of dislocations, based on solutions of the continuity equation, have been developed for dislocations located in the bulk region adjacent to a Schottky diode (Donolato 1979, Donolato andKlann 1980) or a pn junction (Pasemann 1981, Donolato 1981. It has been shown in Part I (Sieber and Philibert 1987) that these earlier theories cannot explain the behaviour of the EBIC contrast as a function of the accelerating voltage E , for dislocations in n-type CdTe.…”

Section: Introductionmentioning

confidence: 98%

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Ebic contrast of defects in cadmium telluride. II. Theory

Sieber

1987

Philosophical Magazine B

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Section: Theoretical Ebic Curvesmentioning

confidence: 55%

Section: Theoretical Ebic Curvesmentioning

confidence: 84%

Section: Currents At the Dislocation Perpendicular To The Surfacementioning

confidence: 99%

Section: Recombination At Dislocationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 98%

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Ebic contrast of defects in cadmium telluride. II. Theory

Sieber

1987

Philosophical Magazine B

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

Donolato¹,

Venturi²

1982

phys. stat. sol. (a)

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Images of representative line defects in silicon, as obtained by the electron beam induced current (EBIC) mode of the scanning electron microscope, are computer simulated using two generation schemes : the uniform generation sphere and a modified Gaussian distribution. The simulations are based on an analytical model of EBIC contrast a t defects, which makes use of the solution of the minority-carrier diffusion problem in the defect-free semiconductor. A comparison between calculated and experimental images indicates that the Gaussian approximation gives a better description of the observed contrast. Residual differences between theory and experiment are attributed to depletion layer effects. Abbildungen typischer Liniendefekte in Silizium, die durch Anwendung der EBIC-Methode des Raster-Elektronenmikroskops erhalten werden. werden Computer-simuliert unter Verwendung zweier Erzeugungsnahemngen: eine Kugel gleichmiidiger Generation und eine modifizierte GauBsche Verteilung. Die Simulationen gehen von einem analytischen Model1 des EBIC-Kontrasts a n Defekten aus, wobei die Losung des Diffusionsproblems fur Minoritatsladungstriiger im defektfreien Halbleiter verwendet wird. Der Vergleich berechneter und experimenteller Abbildungen weist darauf hin, daB die GauBsche Niiherung eine bessere Beschreibung des beobachteten Kontrasts ergibt. Restunterschiede zwischen Theorie und Experiment werden auf Effekte in der Verarmungszone zuruckgefuhrt. * n po(r, Z ; R) = -dk J,(kr) dz'[e-klZ-Z'I -e'p(z+t')] Jo(kr') g(r', 2') r' dr'. J J 0 0 n

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Generation and Recombination Images of Dislocations in Si by Scanning Microscopy

Castaldini

Cavallini

Gondi

et al. 1982

phys. stat. sol. (a)

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I n high purity Si generation images of dislocations, appearing as white lines, may be obtained in scanning microscopy by using an IR beam with suitable wavelength, with excitations involving prevalently the dislocation energy levels. Different contrasts are observed with broad area contacts or with point contacts localized in the dislocation etch-pit centre.Dans Silicium de haute puretb on a obtenu des images de dislocations comme des lignes blanches par le moyen d'un microscope 8. balayage. On a utilisb un faisceau IR de convenable longueur d'onde, par excitation concernant les niveaux des dislocations. On a remarqub des diffbrents contrastes avec larges contacts ou avec contacts ponctuels places dans le centre du "etch-pit'' des dislocations.

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On the EBIC Contrast of Dislocations in Si

Cited by 10 publications

References 14 publications

Ebic contrast of defects in cadmium telluride. II. Theory

Ebic contrast of defects in cadmium telluride. II. Theory

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

Generation and Recombination Images of Dislocations in Si by Scanning Microscopy

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