Study of Ultraviolet Irradiation Effect on the ZnO:Tb Thin Films Characteristics

IF 0.5 4区 物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY Journal of Contemporary Physics (Armenian Academy of Sciences) Pub Date : 2023-07-14 DOI:10.1134/S1068337223020172
E. P. Zaretskaya, V. F. Gremenok, V. V. Malyutina-Bronskaya, A. S. Musayelyan, S. G. Petrosyan
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Abstract

Single phase and highly transparent ZnO:Tb films with a Tb concentration from 0.41 at% up to 0.78 аt% were formed on glass and silicon substrates by sol-gel deposition. The influence of ultraviolet radiation on the structural and photoelectric characteristics of n-ZnO:Tb/n-Si structures has been studied. The appearance of a photoelectric effect under the influence of a bias voltage and UV radiation (405 and 278 nm) was established, with an increase in photo effect when irradiated with shorter wavelength UV radiation (278 nm). It was shown that the concentration of the Tb3+ dopant is the determining factor for increasing the UV photosensitivity of the structures. The experimentally established selective sensitivity of n-ZnO:Tb/n-Si structures to UV radiation with a wavelength of less than 405 nm demonstrates the possibility of their use in UV radiation detectors or sun-blind detectors.

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紫外光照射对ZnO:Tb薄膜特性影响的研究
采用溶胶-凝胶沉积法在玻璃和硅衬底上形成了Tb浓度为0.41 at% ~ 0.78 at%的单相高透明ZnO:Tb薄膜。研究了紫外辐射对n-ZnO:Tb/n-Si结构的结构和光电特性的影响。在偏置电压和紫外辐射(405 nm和278 nm)的影响下,形成了光电效应,在波长较短的紫外辐射(278 nm)照射下,光电效应增强。结果表明,Tb3+掺杂浓度是提高结构紫外光敏性的决定因素。实验建立了n-ZnO:Tb/n-Si结构对波长小于405 nm的紫外辐射的选择性灵敏度,证明了其在紫外辐射探测器或遮光探测器中的应用可能性。
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来源期刊
CiteScore
1.00
自引率
66.70%
发文量
43
审稿时长
6-12 weeks
期刊介绍: Journal of Contemporary Physics (Armenian Academy of Sciences) is a journal that covers all fields of modern physics. It publishes significant contributions in such areas of theoretical and applied science as interaction of elementary particles at superhigh energies, elementary particle physics, charged particle interactions with matter, physics of semiconductors and semiconductor devices, physics of condensed matter, radiophysics and radioelectronics, optics and quantum electronics, quantum size effects, nanophysics, sensorics, and superconductivity.
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