在缺陷材料中采用新型漂移主导结构的高性能光电探测器

Conference Digest [Includes 'Late News Papers' volume] Device Research Conference, 2004. 62nd DRC. Pub Date : 2004-06-21 DOI:10.1109/DRC.2004.1367898

Y. Sun, A. Yulius, J. Woodall

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摘要

通过将InP光电二极管与Si集成，我们可以利用大型Si衬底的低成本和稳健性。然而，由于8%的晶格失配和热膨胀系数的巨大差异，这种策略的主要挑战是在Si上生长的InP中存在高密度的位错。大量的位错作为复合中心，极大地降低了InP光电二极管的性能。我们已经开发了InP光电二极管，其光活性区域具有大电场，以实现高量子效率，即使是有缺陷的材料。我们使用GaP衬底作为第一步，因为GaP与Si晶格匹配，可以用作InP和Si之间的缓冲层。我们比较了两种不同的结构:正常的p-i-n结构和漂移主导结构。

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A high performance photodetector using a novel drift dominated structure in defected materials

By integrating InP photodiodes with Si, we can take advantage of the low cost and robustness of large Si substrates. However, the major challenge of this strategy is the high density of dislocations in InP grown on Si, due to the 8% lattice mismatch and large difference in thermal expansion coefficient. Large concentrations of dislocations act as recombination centers which greatly deteriorates the performance of the InP photodiodes. We have developed InP photodiodes whose photo-active regions have large electric fields in order to achieve high quantum efficiencies, even with defected material. We use a GaP substrate as the first step since GaP is lattice matched to Si, which could be used as a buffer layer between InP and Si. We compared two different structures: a normal p-i-n structure and a drift dominated structure.

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Conference Digest [Includes 'Late News Papers' volume] Device Research Conference, 2004. 62nd DRC.

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