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Thermal acceptors in irradiated silicon (2000)

Stas’, V. F. ; Antonova, I. V. ; Neustroev, E. P. ; [et al.]

Springer

Semiconductors 34 (2000), S. 155-160

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ISSN: 1063-7826

Source: Springer Online Journal Archives 1860-2000

Topics: Electrical Engineering, Measurement and Control Technology , Physics

Notes: Abstract Comparative analysis of the conditions for the formation of shallow acceptor centers upon high-temperature annealing in silicon irradiated with electrons, neutrons, and energetic ions is performed. The introduction of a sufficiently large (in comparison with the initial concentration of impurities and defects) concentration of radiation-induced distortions of the silicon lattice is shown to lead to the formation of thermal acceptors stable up to annealing temperature of ∼650°C. The acceptor formation is supposed to be due to the interaction of background acceptor impurities (supposedly boron) with vacancies “stored” in multivacancy clusters and released upon their breakup.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1134/1.1187925

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Electrical conductivity of silicon-on-insulator structures prepared by bonding silicon wafers to a substrate using hydrogen implantation (2000)

Antonova, I. V. ; Stas’, V. F. ; Popov, V. P. ; [et al.]

Springer

Semiconductors 34 (2000), S. 1054-1057

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ISSN: 1063-7826

Source: Springer Online Journal Archives 1860-2000

Topics: Electrical Engineering, Measurement and Control Technology , Physics

Notes: Abstract Silicon-on-insulator structures were prepared by exfoliating a thin layer from a silicon wafer owing to hydrogen implantation, transferring this layer to another substrate, and bonding to it. The influence of hydrogen and the doping level in the original wafers on the free-carrier concentration and the conductivity type in the split-off silicon layer was investigated. A high boron concentration in the original material, together with a high concentration of residual hydrogen in the silicon layer exfoliated from the wafer, was shown to result in n-type conduction, which is retained up to annealing temperatures of 1100°C in these structures. A decrease in the residual hydrogen concentration owing to additional annealing creates the conditions under which the conductivity of resulting structures corresponds to the conductivity type of the original material.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1134/1.1309421

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Nature of E c −0.37 eV centers and the formation of high-resistivity layers in n-type silicon (1997)

Naumova, O. V. ; Smirnov, L. S. ; Stas’, V. F.

Springer

Semiconductors 31 (1997), S. 847-851

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ISSN: 1063-7826

Source: Springer Online Journal Archives 1860-2000

Topics: Electrical Engineering, Measurement and Control Technology , Physics

Notes: Abstract The DLTS and Van der Pauw methods are used to investigate the production of E c −0.37 eV centers responsible for the formation of high-resistivity layers in n-type Si irradiated with electrons and annealed in the temperature range 80–320 °C. An analysis of the experimental data leads to a conclusion as to the composition of the E c −0.37 eV centers ([V-O-C]) and to the conclusion that their formation is stimulated by a flux of interstitial atoms away from the interface into the interior of the semiconductor during annealing accompanied by the reactions: 1) I+Cs→Ci,Ci+[V-O]→[V-O-C] (dominant reaction); 2) I+V 2→V,V+[C-O]→[V-O-C].

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1134/1.1187266

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