Design, fabrication and demonstration of heterogeneously III-V/Si laser with a compact optical vertical interconnect access

Photonics West - Optoelectronic Materials and Devices Pub Date : 2015-03-18 DOI:10.1117/12.2086929

Jing Pu, D. Ng, K. Lim, V. Krishnamurthy, Chee-Wei Lee, Kun Tang, Anthony Yew Seng Kay, T. Loh, Qian Wang

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引用次数: 2

Abstract

A new heterogeneously integrated III-V/Si laser structure is reported in this letter, which consists of a III-V ridge waveguide gain section on silicon, III-V/Si optical vertical interconnect accesses (VIAs) and silicon-oninsulator (SOI) nanophotonic waveguide sections. The III-V semiconductor layers are introduced on top of the 300 nm thick SOI layer through low temperature, plasma assisted direct wafer-bonding and etched to form III-V ridge waveguide on silicon as the gain section. The optical VIA is formed by tapering the III-V and the beneath SOI in the same direction with a length of 50 μm for efficient coupling of light down to the 600 nm wide silicon nanophotonic waveguide or vice versa. Fabrication details and specification characterizations of this heterogeneous III-V/Si Fabry–Pérot (FP) laser are given. The fabricated FP laser shows a continuous-wave lasing with a threshold current of 65 mA at room temperature and the slope efficiency from single facet is 144 mW/A. The maximal single facet emitting power is about 4.5 mW at a current of 100 mA and the side-mode suppression ratio is ~30 dB. This new heterogeneously integrated III-V/Si laser structure demonstrated enables more complex laser configuration with a sub-system on-chip for various applications.

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具有紧凑型光学垂直互连接入的异质III-V/Si激光器的设计、制造和演示

本文报道了一种新的异质集成III-V/Si激光器结构，它由硅上的III-V脊波导增益部分、III-V/Si光学垂直互连通道(VIAs)和硅-绝缘体(SOI)纳米光子波导部分组成。在300 nm厚的SOI层上，通过低温等离子体直接键合，将III-V型半导体层引入到SOI层上，并蚀刻成III-V型脊波导作为增益部分。通过将III-V和其下的SOI沿相同方向变细(长度为50 μm)形成光学VIA，将光有效耦合到600 nm宽的硅纳米光子波导，反之亦然。本文给出了该非均相III-V/Si法布里-帕齐罗(FP)激光器的制作细节和性能表征。制备的FP激光器在室温下具有连续的激光输出，阈值电流为65 mA，单面斜率效率为144 mW/ a。在100 mA电流下，最大单面发射功率约为4.5 mW，侧模抑制比为~30 dB。这种新的异质集成III-V/Si激光器结构演示了更复杂的激光配置与子系统片上的各种应用。

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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Photonics West - Optoelectronic Materials and Devices

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