磁场、电场和光强对硅中重组波参数的影响

N. F. Zikrillaev, M. M. Shoabdurakhimova, U. Kh. Kurbanova, N. Narkulov, F. K. Shakarov
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摘要

本文介绍了掺杂杂质硒原子的硅中重组波(RW)型电流自振荡的实验研究结果。硅中掺杂杂质硒原子是利用一种新开发的技术进行的,这种技术可以在硅晶格中形成由 Se2 和 Se4 分子组成的杂质硒原子纳米团簇,而不会侵蚀样品表面。在室温和足够低的电场下,检测到了({text{Si}}\left\langle {{text{Se}}} \right\rangle \)样品中的自振荡。Si(left/langle {{text{Se}} \right\rangle\) 样品中的 RW 参数(振幅和频率)取决于电阻率和所形成的硒原子纳米团簇的浓度,以及磁场的影响,这使得在 J = 10-5-5 × 10-3 A 的范围内控制振幅和 f = 104-(5 × 106) Hz 的自振荡频率成为可能。硅中由两个(Se2)或四个(Se4)硒原子组成的纳米簇的形成解释了所观察到的 RWs 的机理,这导致了主要电荷载流子的波动(簇)的形成,并在确定外加恒定电场的大小时使它们达到接触。在掺有硒杂质原子的硅扩散中观察到的电流自振荡,显示了实际利用它来制造固态发电机的可能性。
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Effect of the Magnetic Field, Electric Field, and Light Intensity on the Parameters of Recombination Waves in Silicon

The paper presents experimental study results of self-oscillations of the current of the recombination wave (RW) type in silicon doped with impurity selenium atoms. Doping of silicon with impurity selenium atoms was carried out using a newly developed technology, which allows for the formation of nanoclusters of impurity selenium atoms in the silicon lattice consisting of Se2 and Se4 molecules, without erosion of the surface of the samples. Self-oscillations in the \({\text{Si}}\left\langle {{\text{Se}}} \right\rangle \) samples were detected at room temperature and at sufficiently low electric fields. The dependences of the RW parameters (amplitude and frequency) in the Si\(\left\langle {{\text{Se}}} \right\rangle \) samples on the resistivity and concentration of the formed nanoclusters of selenium atoms, as well as on the influence of a magnetic field, which makes it possible to control the amplitude in the range of J = 10–5–5 × 10–3 A and the frequency of self-oscillations of f = 104–(5 × 106) Hz. The mechanism of the observed RWs is explained by the formation of nanoclusters consisting of two (Se2) or four (Se4) selenium atoms in silicon, which leads to the formation of fluctuations (clusters) of the main charge carriers and their reaching contact when determining the magnitude of the applied constant electric field. A possibility of practical use of self-oscillations of current observed in silicon diffusion doped with selenium impurity atoms to create solid-state generators is shown.

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来源期刊
Surface Engineering and Applied Electrochemistry
Surface Engineering and Applied Electrochemistry Engineering-Industrial and Manufacturing Engineering
CiteScore
1.60
自引率
22.20%
发文量
54
期刊介绍: Surface Engineering and Applied Electrochemistry is a journal that publishes original and review articles on theory and applications of electroerosion and electrochemical methods for the treatment of materials; physical and chemical methods for the preparation of macro-, micro-, and nanomaterials and their properties; electrical processes in engineering, chemistry, and methods for the processing of biological products and food; and application electromagnetic fields in biological systems.
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