B. Campbell scite author profile

B. Campbell

5Publications

237Citation Statements Received

45Citation Statements Given

How they've been cited

260

225

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Affiliations

University of Alberta, King's College London

Publications

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Radiation Damage of Diamond by Electron and Gamma Irradiation

Campbell

Mainwood

2000

phys. stat. sol. (a)

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Diamond is an exceptionally radiation-hard material, but the main mechanisms by which lattice damage results from irradiation of high-energy particles and photons are not well understood. Models of radiation damage in diamond have been built up for both electron and gamma irradiation using Monte Carlo computer simulations. The energies investigated ranged from 0.25 to 10 MeV for electron irradiation and 1 to 15 MeV for gamma irradiation. Electrons have a low collision cross-section with carbon atoms, and therefore much of their energy is dissipated in ionisation before the electron displaces an atom. Gamma radiation causes damage by the indirect process of generating electrons (by Compton scattering and pair production) which then displace atoms (and ionise the material). The knock-on atom may cause further damage by displacing further atoms. However, both electron and gamma irradiation form predominantly isolated vacancies and interstitial pairs (Frenkel pairs). The range of 1 MeV electrons in diamond is about 1.3 mm with a nearly constant damage profile up to this cut-off. The range of gamma photons is much greater, with about 85% of 1 MeV photons passing through a 5 mm diamond without causing any damage. The total damage rates were calculated to vary between 0.01 and 5.15 vacancies per incident electron and between 0.02 and 6.10 vacancies per photon over the energy ranges investigated.

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Lattice damage caused by the irradiation of diamond

Campbell¹,

Choudhury²,

Mainwood³

et al. 2002

Nuclear Instruments and Methods in Physics Research Section A:

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Recombination-enhanced diffusion of self-interstitial atoms and vacancy–interstitial recombination in diamond

Newton

Campbell

Twitchen³

et al. 2002

Diamond and Related Materials

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Interstitials, Vacancies and Impurities in Diamond

Davies

Campbell

Mainwood

et al. 2001

phys. stat. sol. (a)

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Diamond is a very simple crystalline system, and we would expect that the effects of radiation damage should be easily understood. As an example of its simplicity, we note that diamond contains only one species of atom, and we show that the effects of isotopic substitution at the selfinterstitial can be understood quantitatively. However, there are surprising gaps in our current understanding. At low temperatures, and in pure diamond, the rates of producing neutral vacancies and self-interstitials are equal, but when the irradiation temperature exceeds $120 K there is a significant loss of observable I 0 centres by a process that is not yet known. The reaction kinetics of I 0 are not yet understood, and one complication is the existence of barriers to reactions between defects, which will result in various metastable configurations. In nitrogen-doped diamond, there is evidence for a considerable reduction in the rate of correlated recombination in the locality of the nitrogen impurity, which has possible implications for the radiation hardness of strained diamond.

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Kinematics of electron–proton collisions

Campbell¹,

Elias²,

Frisken³

1981

Can. J. Phys.

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B. Campbell

Radiation Damage of Diamond by Electron and Gamma Irradiation

Lattice damage caused by the irradiation of diamond

Recombination-enhanced diffusion of self-interstitial atoms and vacancy–interstitial recombination in diamond

Interstitials, Vacancies and Impurities in Diamond

Kinematics of electron–proton collisions

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