具有组分梯度的HgCdTe探测器在激光测量中的潜在应用

Potential application of HgCdTe detector with composition gradient in laser measurement

  • 摘要: 该文将组分梯度引入HgCdTe探测器结构设计中,提出了一种可以降低PN结附近热激发载流子浓度的方法。建立暗电流机制模型,分析高温下暗电流成份,分析结果表明,降低热激发载流子浓度对结区的影响是提高器件工作温度的关键。利用组分梯度在PN结附近构建不同的电场,不同电场下样品暗电流和噪声电流随温度的变化曲线表明,构建的电场越强,降低结区附近热激发载流子浓度的效果越明显。通过数据分析,提出构建103 V/cm量级的组分梯度内建电场可抑制热激发载流子向结区的扩散运动,有效地降低结区附近热激发载流子浓度。

     

    Abstract: The composition gradient was introduced into the structure design of HgCdTe detector, and a method was proposed to reduce the thermally excited carrier concentration near PN junction. The model of dark current mechanism was established, and the analysis of dark current components at high temperature showed that reducing the influence of the thermally excited carrier concentration on the junction was the key to improve the operating temperature of the detector. Different electric fields were built near the PN junction by using the composition gradient. The curves of dark current and noise of the sample with temperature under different electric fields show that the stronger the electric field is, the more obvious the effect of reducing the thermally excited carrier concentration near the junction. Based on the data analysis, it is proposed that the built-in electric field generated by the composition gradient of 103 V/cm can inhibit the diffusion movement of thermally excited carriers to the junction region, which effectively reduce the concentration of thermally excited carriers near the junction region.

     

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