И.Г. Дьячкова scite author profile

И.Г. Дьячкова

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Об Изменении Реальной Структуры Кристаллов Кремния, Имплантированных Ионами Водорода, При Их Отжиге По Данным Трехкристальной Рентгеновской Дифрактометрии

Асадчиков¹,

Дьячкова²,

Золотов³

et al. 2019

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In this paper, we present the results of a three-crystal X-ray diffractometry (XRD) study of the state of a disturbed layer formed in silicon crystals by implantation of hydrogen ions with energies of 100 + 200 + 300 keV and a total dose of 2 × 10^16 cm^–2 during the subsequent heat exposure in the temperature range from 200 to 1100°C. Here, X-ray studies were performed in the three-crystal XRD scheme when the sample under consideration operates as a second stationary crystal with various fixed angular detuning α from the Bragg position while the third (perfect) crystal-analyzer sweeps the angular distribution of radiation diffracted by the second crystal. Based on a comparison of the shape of diffraction and diffuse maxima for the samples under study, a qualitative conclusion about a significant transformation of radiation defects at post-implantation annealing was derived.

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Рентгеновская Диагностика Дефектов Микроструктуры Кристаллов Кремния, Облученных Ионами Водорода

Асадчиков¹,

Дьячкова²,

Золотов³

et al. 2019

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Features of formation and transformation of radiation defects in near-surface layers of silicon plates that are implanted with hydrogen ions are studied. Using the method of high-resolution double-crystal X-ray diffractometry, values of the main parameters, such as mean effective thickness L _eff and mean relative deformation Δ a / a of a doped layer, are determined depending on the implantation dose and substrate temperature.

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