Journal
PHYSICAL REVIEW B
Volume 61, Issue 6, Pages 3863-3876Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.61.3863
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A systematic study has been made of some of the properties of R2, the most dominant paramagnetic defect produced in type-Iia diamond by electron irradiation. R2 has been produced in high-purity synthetic diamonds, which have been irradiated with 2 MeV electrons in a specially developed dewar, allowing irradiation down to a measured sample temperature of 100 K, at doses of 2x10(17) to 4x10(18) electrons cm(-2). The production rate of vacancies [1.53(10) cm(-1)] was the same for irradiation at 100) K as at 350 K, but the production rate of the R2 electron-paramagnetic-resonance (EPR) center is 1.1(1) cm(-1) at 100 K and only 0.10(5) cm(-1) at 350 K, Measurements have been made of the angular variation of the EPR linewidth, C-13 hyperfine structure of samples grown with enriched isotopic abundance of C-13, and of the EPR of samples annealed under uniaxial stress (for which a special equipment was developed). A combination of these data with the previously measured data has shown that R2 is the neutral [100]-split self-interstitial. This is an identification of an isolated stable self-interstitial in a group IV material. This shows that the self-interstitial is not mobile in type-IIa diamond under normal conditions (i.e., without the irradiation) until the annealing temperature of 700 K.
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