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Positron probing of phosphorus-vacancy complexes in silicon irradiated with 15 MeV protons

N.Yu. ArutyunovInst. Ion-Plasma&Laser Technol. (Inst. of Electronics), Tashkent 700187, UzbekistanV. V. EmtsevIoffe Physico-Technical Institute, St. Petersburg 194021, RussiaR. Krause‐RehbergMartin Luther University Halle, Department of Physics, 06120 Halle, GermanyMohamed ElsayedMartin Luther University Halle, Department of Physics, 06120 Halle, GermanyCatharina I. KeßlerMartin Luther University Halle, Department of Physics, 06120 Halle, GermanyVitalii V. KozlovskiSt. Petersburg State Polytechnic University, St. Petersburg 195251, RussiaG. A. OganesyanIoffe Physico-Technical Institute, St. Petersburg 194021, Russia
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Defects in phosphorus-doped silicon samples of floating-zone material, n-FZ-Si(P), produced under irradiation with 15 MeV protons at room temperature are studied by positron annihilation lifetime spectroscopy over the temperature range of ∼ 30 K - 300 K and by low- temperature Hall effect measurements. After annealing of E-centersand divacancies, we detected for the first time high concentrations of positron traps which had not been observed earlier. These defects are isochronally annealed over the temperature interval of ∼ 320 °C - 700 °C; they manifest themselves as electrically neutral deep donor centersin the material of n-type. A long-lived component of the positron lifetime, τ2(I2 < 60%) ∼ 280 ps, attributed to these centers, suggests a relaxed configuration involving two vacancies. The enthalpy and entropy of annealing of these centersare Ea ∼ 1.05(0.21) eV and ΔSm ≈ 3.1(0.6)kB, respectively. It is argued that the microstructure of the defect consists of two vacancies, VV, and one atom of phosphorus, P. The split configuration of the VPV complex is shortly discussed.

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