D. Alexiev scite author profile

D. Alexiev

5Publications

92Citation Statements Received

25Citation Statements Given

How they've been cited

283

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Affiliations

University of Sydney, Australian Nuclear Science and Technology Organisation, Macquarie University

Publications

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Field drift of the hydrogen-related, acceptor-neutralizing defect in diodes from hydrogenated silicon

Tavendale¹,

Alexiev²,

Williams³

1985

155

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Field drift of the hydrogen-related, acceptor-neutralizing defect has been detected in reverse-biased Schottky barrier and junction diodes made from plasma-hydrogenated, p-type, boron-doped silicon. Significant differences in diffusion depths and drift rates between hydrogenated and deuterated silicon indicate that the mobile neutralizing species is possibly uncomplexed monoatomic hydrogen with a donor level above the mid band gap. Hydrogen-boron pairing explains qualitatively the boron acceptor concentration profiles in hydrogen-neutralized, p-type silicon.

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An instrumental solution to the phenomenon of negative capacitances in semiconductors

Butcher

Tansley

Alexiev

1996

Solid-State Electronics

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Neutron dosimetry with planar silicon p-i-n diodes

Rosenfeld

Yudelev

Lerch

et al. 2003

IEEE Trans. Nucl. Sci.

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Comparison between deep level defects in GaAs induced by gamma, 1 MeV electron, and neutron irradiation

Lai

Alexiev

Nener

1995

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The deep level transient spectroscopy technique has been employed to follow closely the effect of 1–300 Mrad 60Co γ irradiation on the deep electron traps in undoped vapor-phase-epitaxy n-type GaAs. The 1 Mrad γ-irradiated Schottky device was identical to the as-grown or control device, with only two electron traps EL2 (Ec−0.820 eV) and EL3 (Ec−0.408 eV) detected. At a γ dose of 5 Mrad, two additional electron traps EL6 (Ec−0.336 eV) and E2 (Ec−0.128 eV) were observed. As the γ doses were increased to ≥10 Mrad, a third electron trap E1 (Ec−0.033 eV) was observed, and the single exponential EL2 capacitance transient became a double exponential, indicating two deep levels lying at Ec−0.820 eV (EL2/EL2-A) and Ec−0.843 eV (EL2-B). The trap concentration of EL2-A remained unchanged up to a γ dose of 50 Mrad before starting to increase slowly as the γ dose was increased to ≥100 Mrad. In contrast, the EL2-B trap concentration was found to increase by 32 times, reaching 2.6×1014 cm−3 at 300 Mrad from a low 8.0×1012 cm−3 at 10 Mrad when it was first observed, whereas for the 1 MeV electron irradiation with low electron fluence of 1014 e cm−2, the EL6, E2, E1, and the double exponential EL2 were detected at the same time. There was no sign of EL2-B, EL3, EL6, E2, or E1, but an additional broad U band was observed after irradiation with 1 MeV neutrons. The results of the γ and neutron irradiation suggest that the presence of the double exponential EL2 transients is not related to either EL6, E2, E1, or the U band, and is unlikely to be due AsGa→VGa+Asi but is probably caused by the AsGa complex defects involving an irradiation defect. The defect concentration of trap E1 increased strongly from 5.4×1013 cm−3 at 10 Mrad to 9.3×1014 cm−3 at 100 Mrad, and E2 increased from 2.1×1013 cm−3 at 5 Mrad to 6.7×1014 cm−3 at 100 Mrad.

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Analysis of inelastic interactions for therapeutic proton beams using Monte Carlo simulation

Rosenfeld

Wroe

Cornelius

et al. 2004

IEEE Trans. Nucl. Sci.

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Abstract-The irradiation of various tissue-like materials by therapeutic proton beams was simulated using Monte Carlo. The contribution of inelastic reaction products to the depth-dose distribution was determined. The use of silicon microdosimeters for verifying Monte Carlo calculations was also investigated. The importance of these studies to Monte Carlo-based treatment planning systems is emphasized.

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D. Alexiev

Field drift of the hydrogen-related, acceptor-neutralizing defect in diodes from hydrogenated silicon

An instrumental solution to the phenomenon of negative capacitances in semiconductors

Neutron dosimetry with planar silicon p-i-n diodes

Comparison between deep level defects in GaAs induced by gamma, 1 MeV electron, and neutron irradiation

Analysis of inelastic interactions for therapeutic proton beams using Monte Carlo simulation

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