Silicon four element p-i-n photodiode with improved characteristics

Q3 Computer Science

Radioelectronic and Computer Systems Pub Date : 2023-03-07 DOI:10.32620/reks.2023.1.07

M. Kukurudziak

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引用次数: 4

Abstract

This article presents the results of the development of silicon coordinate p-i-n photodiodes (PD) with improved parameters. The technological possibilities of reducing the gaps between the responsive areas of multi-element PDs were studied. PDs with reduced gaps were modeled, samples were made according to the models, the parameters of the obtained PDs and the influence of various technological factors on their values were investigated. During research, it was established that the factor that limits the possibility of reducing the gaps is the insulation resistance between the responsive elements. The decrease in the insulation resistance between the PD elements was a consequence of the formation of inversion leakage channels at the Si-SiO2 interface, which is characteristic of high-resistance p-type silicon, the conductivity of which increased with a decrease in the width of the gaps. To increase the resistance of the gaps between the platforms and reduce the influence of inversion layers, it was decided to form regions of the restriction of the leakage channels between the REs – highly doped regions isotypic with the substrate material (p+-type). They will prevent the movement of current carriers that are generated in the inversion layers on the surface of the substrate. Four-element p-i-n photodiodes with 31 μm gaps between the sites were made. The proposed PD is not significantly inferior in parameters to analogues, but it is the sample with the smallest gaps between RE among photodiodes of the same type and size in the world market. The improvement of the insulation resistance between the REs made it possible to reduce the level of dark current of the PD by twice compared to serial products, with a slight decrease in responsivity due to the introduction of additional thermal operations into the technological route. In particular, the dark current density of the RE of experimental PDs was 40-80 nA/cm2, compared to 80-250 nA/cm2 for commercial samples. Impulse current monochromatic sensitivity at a wavelength of 1064 nm for experimental samples was 0.41-0.44 A/W, and for commercial ones - 0.45-0.48 A/W.

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改进特性的硅四元p-i-n光电二极管

本文介绍了改进参数的硅配位p-i-n光电二极管（PD）的研制结果。研究了减少多元素PD响应区域之间差距的技术可能性。对具有减小间隙的PD进行了建模，根据模型制作了样品，研究了获得的PD的参数以及各种技术因素对其值的影响。在研究过程中，确定了限制减小间隙可能性的因素是响应元件之间的绝缘电阻。PD元件之间的绝缘电阻的降低是在Si-SiO2界面处形成反向泄漏沟道的结果，这是高电阻p型硅的特征，其电导率随着间隙宽度的减小而增加。为了增加平台之间间隙的电阻并减少反转层的影响，决定在RE之间形成泄漏通道的限制区域——与衬底材料（p+-型）同质的高掺杂区域。它们将防止在衬底表面的反转层中产生的电流载流子的移动。制作了四元p-i-n光电二极管，其位置之间具有31μm的间隙。所提出的PD在参数上并不明显低于类似物，但它是世界市场上相同类型和尺寸的光电二极管中RE之间差距最小的样品。RE之间绝缘电阻的提高使PD的暗电流水平比系列产品降低了两倍，由于在技术路线中引入了额外的热操作，响应度略有下降。特别地，与商业样品的80-250nA/cm2相比，实验PD的RE的暗电流密度为40-80nA/cm2。实验样品在1064nm波长下的脉冲电流单色灵敏度为0.41-0.44A/W，商业样品为0.45-0.48A/W。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Radioelectronic and Computer Systems Computer Science-Computer Graphics and Computer-Aided Design

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

2 weeks