甲烷光电传感器用非冷却InAs光电二极管

Proceedings of IEEE Sensors 2003 (IEEE Cat. No.03CH37498) Pub Date : 2003-10-22 DOI:10.1109/ICSENS.2003.1278906

V. Khivrych, G. Olijnyk, A. Sukach, V. Tetyorkin, M. Rubay, S. Oshchudlyak

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引用次数: 0

摘要

由于污染物气体的结构单元碳的吸收谱线集中在3.2-3.4 /spl mu/m波段，因此现代光电气体传感器需要高性能的中波长红外(IR)区域的光电探测器。该光谱区域最有效的红外辐射源是由p-n-InGaAs/n-InAs和p-n-InAsSbP/n-InAs异质结构制成的led。红外光电二极管要想成功应用于光电气体传感器，必须具有高灵敏度和工作速度。在许多情况下，这些光电二极管也应该是防爆的。在77 ~ 330 K的温度范围内研究了载流子的输运机制。在实际温度T=260-300 K时，正向电流由两种机制决定:体内扩散和耗尽区产生。在p-n结深h=6/spl /7 /spl mu/m的光电二极管中，光响应光谱在/spl lambda//sub max/=3.3/spl /3.5 /spl mu/m处达到最大值(T=295 K)，这些依赖关系与led光谱/spl lambda/=3.3 /spl mu/m很好地吻合。在所研究的光电二极管中，在波长3.3 /spl mu/m处，电流响应度范围为0.7 ~ 0.8 A/spl倍/W/sup -1/。在T=295 K时，比检出率D/sub /spl lambda// (3.3 /spl mu/m, 800 Hz, 1 Hz)在3.0/spl divide/ 3.5/spl times/10/sup 9/ W/sup -1/ cm Hz/sup 1/2/范围内。这些阈值参数超过了市售光电二极管的类似阈值参数。

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Noncooled InAs photodiodes for optoelectonic sensors of methane

Modern optoelectronic gaseous sensors require high performance photodetectors for mid-wavelength infrared (IR) region because of the most intensive absorption lines of carbons, which are the structural units of pollutant gases, fall into the wavelength region 3.2-3.4 /spl mu/m. The most effective sources of IR radiation in this spectral region are LEDs made of p-n-InGaAs/n-InAs and p-n-InAsSbP/n-InAs heterostructures. To be successfully used in optoelectronic gaseous sensors IR photodiodes should exhibit high sensitivity and operating speed. In many cases these photodiodes should be also explosion proof. The carrier transport mechanisms were investigated in the temperature range 77-330 K. At actual temperatures T=260-300 K the forward current is determined by two mechanisms: diffusion in the bulk and generation in the depletion region. In photodiodes with p-n junction depth h=6/spl divide/7 /spl mu/m the photoresponse spectra has maximum at /spl lambda//sub max/=3.3/spl divide/3.5 /spl mu/m (T=295 K). These dependencies are well coincide with LEDs spectra /spl lambda/=3.3 /spl mu/m. In investigated photodiodes the current responsivity was ranged from 0.7 to 0.8 A/spl times/W/sup -1/ at the wavelength 3.3 /spl mu/m. The specific detectivity D/sub /spl lambda// (3.3 /spl mu/m, 800 Hz, 1 Hz) was found to be in the range 3.0/spl divide/ 3.5/spl times/10/sup 9/ W/sup -1/ cm Hz/sup 1/2/ at T=295 K. These threshold parameters exceed analogous ones in commercially available photodiodes.

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Proceedings of IEEE Sensors 2003 (IEEE Cat. No.03CH37498)

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