High-speed directly-modulated lasers with photon-photon resonance

IPRM 2011 - 23rd International Conference on Indium Phosphide and Related Materials Pub Date : 2011-05-22 DOI:10.1364/NFOEC.2013.JW2A.33

M. Dumitrescu, A. Laakso, J. Viheriala, M. Kamp, P. Melanen, P. Uusimaa

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引用次数: 2

Abstract

The epitaxial overgrowth, employed in the fabrication of conventional buried gratings, is avoided by using lateral corrugations of the ridge-waveguide as surface gratings, thus decreasing the fabrication complexity, increasing the yield and reducing the fabrication cost of distributed feedback and distributed Bragg reflector edge-emitting lasers. Single-and multiple-contact edge-emitting lasers with laterally-corrugated ridge waveguide gratings have been developed both on GaAs and InP substrates with the aim to exploit the photon-photon resonance in order to extend their direct modulation bandwidth. The characteristics of such surface-grating-based lasers emitting both at 1.3 and 1.55 µm are presented, including photon-photon-resonance-extended small-signal modulation bandwidth in excess of 20 GHz achieved with a 1.6 mm long single-contact device under direct modulation. Similarly structured devices, with shorter lengths are expected to exceed 40 GHz small-signal modulation bandwidth under direct modulation.

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具有光子-光子共振的高速直接调制激光器

采用脊波导的横向波纹作为表面光栅，避免了传统埋地光栅中存在的外延过度生长问题，从而降低了分布式反馈和分布式Bragg反射器边发射激光器的制造复杂性，提高了成品率，降低了制造成本。在GaAs和InP衬底上开发了具有横向波纹脊波导光栅的单接触和多接触边发射激光器，目的是利用光子-光子共振来延长其直接调制带宽。介绍了这种基于表面光栅的激光器的特性，发射波长分别为1.3和1.55 μ m，包括在直接调制下使用1.6 mm长的单触点器件实现的光子-光子-谐振扩展的小信号调制带宽超过20 GHz。类似结构的器件，具有更短的长度，预计在直接调制下将超过40 GHz的小信号调制带宽。

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IPRM 2011 - 23rd International Conference on Indium Phosphide and Related Materials

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High-speed directly-modulated lasers with photon-photon resonance A Generic InP-based Photonic Integration Technology