硼掺杂对立方碳化硅光敏性的影响

IF 1.1 Q4 QUANTUM SCIENCE & TECHNOLOGY

Semiconductor Physics Quantum Electronics & Optoelectronics Pub Date : 2019-03-30 DOI:10.15407/spqeo22.01.092

V. Rodionov

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引用次数: 1

摘要

研究了甲基三氯硅烷在生长过程中热分解并添加硼或扩散到有意未掺杂的晶体中获得的3С-SiC单晶的光电性能。硼掺杂样品的光敏带在1.3…2.0 eV范围内，峰值在1.7 eV附近。用B杂质掺杂3С-SiC单晶会在带隙内出现热激活能为0.27±0.02 eV的有效复合中心，并在杂质长波范围内拓宽材料的光谱灵敏度。硼的可用性导致光电导率的温度依赖性从衰变特性变为活化特性。它将允许将基于3C SiC〈B〉的器件的操作范围扩大到500°С及以上。此外，勒克斯-安培特性变得线性，即从计量角度来看更方便。根据3C SiC〈B〉样品的掺杂类型，揭示了近红外范围内光致发光光谱中线位置的显著变化。

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Influence of boron doping on the photosensitivity of cubic silicon carbide

Photoelectric properties have been studied for 3С-SiC single crystals obtained by thermal decomposition of methyl trichlorosilane with addition of boron in the process of growing or using diffusion into intentionally undoped crystals. Boron-doped samples demonstrate the band of photosensitivity within the range 1.3...2.0 eV with the peak near 1.7 eV. Doping of 3С-SiC single crystals with B impurity leads to appearance of an efficient recombination center with the thermal activation energy 0.27 ± 0.02 eV inside the band gap and to widening the spectral sensitivity of the material over the impurity longwave range. Availability of boron results in changing the temperature dependence of photoconductivity from the decay characteristic to the activation one. It will allow expanding the operation range of devices based on 3C-SiC〈B〉 up to 500 °С and above it. In addition, the lux-ampere characteristics becomes linear, i.e., more convenient from the metrological viewpoint. Depending on the type of doping of 3C-SiC〈B〉 samples, pronounced variations of line positions in photoluminescence spectra in near-infrared range are revealed.

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来源期刊

Semiconductor Physics Quantum Electronics & Optoelectronics QUANTUM SCIENCE & TECHNOLOGY-

CiteScore

1.80

自引率

22.20%

发文量

审稿时长

15 weeks