C. P. Burrows scite author profile

C. P. Burrows

5Publications

130Citation Statements Received

55Citation Statements Given

How they've been cited

179

114

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Affiliations

Swansea University, University of Bath, University of East Anglia

Publications

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Fluorine in Silicon: Diffusion, Trapping, and Precipitation

Burrows

Coleman

2003

Phys. Rev. Lett.

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The effect of vacancies on the behavior of F in crystalline Si has been elucidated experimentally for the first time. With positron annihilation spectroscopy and secondary ion mass spectroscopy, we find that F retards recombination between vacancies (V) and interstitials (I) because V and I trap F to form complexes. F diffuses in the V-rich region via a vacancy mechanism with an activation energy of 2.12+/-0.08 eV. After a long annealing time at 700 degrees C, F precipitates have been observed by cross-section transmission electron microscopy which are developed from the V-type defects around the implantation range and the I-type defects at the end of range.

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Leakage current and charge trapping behavior in TiO2∕SiO2 high-κ gate dielectric stack on 4H-SiC substrate

Mahapatra¹,

Chakraborty²,

Poolamai³

et al. 2007

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The TiO2∕SiO2 gate dielectric stack on 4H-SiC substrate has been studied as a high-κ gate dielectric for metal-oxide semiconductor devices. X-ray photoelectron spectroscopy confirmed the formation of stoichiometric TiO2 films. The leakage current through the stack layer was investigated and it has been shown to be a double conduction mechanism. At low fields, the current is governed by properties of the interfacial layer with a hopping like conduction mechanism, while at relatively high electric field, carriers are modulated by a trap assisted tunneling mechanism through traps located below the conduction band of TiO2. The current-voltage characteristics, time evolution of charge transport, and capacitance-voltage behaviors under constant voltage stressing suggest the composite effect of electron trapping and positive charge generation in the dielectric stack layer.

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Photoluminescence response of ion-implanted silicon

Harding

Davies

Hayama

et al. 2006

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The photoluminescence intensity from ion-implanted silicon can be quenched by the radiation damage implicit in the implantation. Annealing is then required before the intensity of the luminescence from a defect center is approximately proportional to the concentration of that center. Data from positron annihilation and photoluminescence experiments establish that severe quenching of the luminescence occurs when the mean separation of the small vacancy clusters is less than ϳ30 atomic spacings, and the authors map out where, in the annealing and implantation phase space, the luminescence intensity is expected to be approximately proportional to the concentration of the optical centers.

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Simple expression for vacancy concentrations at half ion range following MeV ion implantation of silicon

Coleman

Burrows

Knights

2002

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Mean concentrations CD of aggregated vacancy-type point-defect structures in float-zone Si implanted with H+, B+, Si+, O+, and Ge2+ ions at energies between 0.45 and 4.0 MeV have been measured as a function of ion dose φ at depths ∼RP/2 (half projected ion range) by beam-based positron spectroscopy. By adjusting φ to φA using factors given by the code TRIM, one arrives at the universal expression CD=(2.79×1010) φA0.63; CD (cm−3) can be estimated to ±50% for MeV ions implanted for φA from 109×1013 cm−2, which corresponds to an upper limit dose approaching 1014 cm−2 for 2 MeV Si+ implantation.

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Study of defects in ion-implanted silicon using photoluminescence and positron annihilation

Harding

Davies

Coleman

et al. 2003

Physica B: Condensed Matter

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C. P. Burrows

Fluorine in Silicon: Diffusion, Trapping, and Precipitation

Leakage current and charge trapping behavior in TiO2∕SiO2 high-κ gate dielectric stack on 4H-SiC substrate

Photoluminescence response of ion-implanted silicon

Simple expression for vacancy concentrations at half ion range following MeV ion implantation of silicon

Study of defects in ion-implanted silicon using photoluminescence and positron annihilation

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