Dangerous Bonds Individual of Hydrogenated Amorphous Silicon and Defect Absorption Spectra

IF 1 Q3 PHYSICS, MULTIDISCIPLINARY
Rustamjon G. Ikramov, K. Muminov, M. Nuritdinova, Bobur Q. Sutonov, Oybek T. Kholmirzayev, A’zamxo’ja A. Mamakhanov
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引用次数: 0

Abstract

In this work, defect absorption spectra for defects characteristic of hydrogenated amorphous silicon are theoretically studied. It is shown that in order to determine defect absorption spectra using the Kubo-Greenwood formula, the indefinite integral in this formula must be written in a certain form. It was discovered that electronic transitions involving defect states are divided into two parts depending on the energy of absorbed photons. The values of the partial defect absorption spectrum at low energies of absorbed photons have almost no effect on the overall defect absorption spectrum. It has been established that the main role in determining the defect absorption spectrum is played by partial spectra determined by optical transitions of electrons between allowed bands and defects. It is shown that with a power-law distribution of the density of electronic states in allowed bands, the spectra of optical transitions between them and defects do not depend on the value of this power.
氢化无定形硅的危险键个体和缺陷吸收光谱
这项工作从理论上研究了氢化非晶硅特征缺陷的缺陷吸收光谱。研究表明,要使用 Kubo-Greenwood 公式确定缺陷吸收光谱,必须以一定的形式写出该公式中的不定积分。研究发现,涉及缺陷态的电子跃迁根据吸收光子的能量分为两部分。在吸收光子的低能量下,部分缺陷吸收光谱的值对整个缺陷吸收光谱几乎没有影响。已经证实,决定缺陷吸收光谱的主要作用是由电子在允许带和缺陷之间的光学跃迁所决定的部分光谱。研究表明,在允许带电子态密度呈幂律分布的情况下,允许带和缺陷之间的光学跃迁光谱与幂律值无关。
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来源期刊
East European Journal of Physics
East European Journal of Physics PHYSICS, MULTIDISCIPLINARY-
CiteScore
1.10
自引率
25.00%
发文量
58
审稿时长
8 weeks
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