Alignment tolerant bi-directional optical interconnects using microlens integrated VCSEL/RCEPD arrays

光通信研究 Pub Date : 2007-06-24 DOI:10.1109/COINACOFT.2007.4519090
Y. T. Lee, K. Chang, Y. Song, K. Alameh
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引用次数: 0

Abstract

In this presentation, we propose novel techniques that improve the performance and the reliability of monolithically integrated VCSELs and RCEPDs , namely, (i) an approach based on forming a self-aligned microlens onto the top distributed Bragg reflectors (DBRs) of VCSEL elements without any additional lithography and (ii) a method that enables tuning the cavity mode of RCEPDs for wavelength alignment. In addition, we propose and demonstrate the proof-of-concept of a reconfigurable inter-chip optical interconnect structure employing Opto-VLSI processors. The performance of the structure is evaluated by measuring the output signals and eye diagrams for different point-to-point and point-to-multipoint optical interconnect scenarios.
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使用微透镜集成VCSEL/RCEPD阵列的校准容忍双向光学互连
在本次演讲中,我们提出了提高单片集成VCSEL和rcepd的性能和可靠性的新技术,即:(i)基于在VCSEL元件的顶部分布式布拉格反射器(dbr)上形成自对准微透镜的方法,而无需任何额外的光刻;(ii)一种能够调整rcepd的腔模式以实现波长对准的方法。此外,我们提出并演示了采用Opto-VLSI处理器的可重构芯片间光互连结构的概念验证。通过测量不同点对点和点对多点光互连场景下的输出信号和眼图来评估该结构的性能。
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光通信研究
光通信研究
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