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Bereiche im Nanotechnikum |
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Martin-Luther-Universität
Interdisziplinäres Zentrum für Materialwissenschaften
Nanotechnikum Weinberg
Heinrich-Damerow-Str. 4, D-06120 Halle, Germany
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NIKOLAY ARUTYUNOV, REINHARD KRAUSE-REHBERG, MOHAMED ELSAYED, VADIM EMTSEV, NIKOLAY V. ABROSIMOV, GAGIK OGANESYAN, VITALII V. KOZLOVSKI Microstructure of bismuth centers in silicon before and after irradiation with 15 MeV protons Journal of Physics: Condensed Matter 33 (2021),
A decrease of two-gamma annihilation rate of a positron in a strong spin–orbit field of the annihilation site of bismuth impurity center 209Bi (J = 9/2) in silicon with natural isotope composition was revealed (J is the nuclear spin). This decrease was observed along with increasing occupancy of Bi donor states (binding energy E{Bi} ~ 69 meV). Atoms of 29Si (J = 1/2) isotope are involved in spin interactions of positron with Bi impurity centers. The growth of occupancy of Bi donor states inhibits two-gamma annihilation rate. The estimated cross-section of positron trapping by the Bi impurity center is o+ ~ (1.23-1.5) × 10 hoch-13 cm2. Together with this surprisingly large value, the integral rate of two-gamma annihilation in a hypothetical polyelectron system of the Bi impurity center is by a factor of just ~ 2.18 higher compared to the magnitude ~2.09 × 109 s-1 known for elemental isolated polyelectron, (e-e+e-). Possible formation of the positron-containing exciton-like states, (e+)D0X (D = Bi, P) is also discussed. Irradiation of material with 15 MeV protons results in decreasing the factor by ~11% due to forming the radiation complex in which Bi atom is in an open volume ambient it. Such complex is suggested to have D3d symmetry and be the deep donor. Low-temperature measurements of both the positron annihilation rate and Hall effect have been applied for studying the isochronal annealing of these point radiation defects which were found to be thermally stable up to ~370 °C; they can be annealed at ~430 °C -470 °C. According to available data of ab initio cluster calculations, the complex of Bi atom with a simulated vacancy has D3d symmetry with the energy gain ~0.92 eV, thus indicating qualitative agreement between experimental and theoretical data. DOI:10.1088/1361-648x/abe96f
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