Waveguide design for bi-modal operation of THz quantum cascade lasers

2010 IEEE MTT-S International Microwave Symposium Pub Date : 2010-05-23 DOI:10.1109/MWSYM.2010.5514815

S. G. Razavipour, S. Fathololoumi, G. Rafi, D. Ban, S. Safavi-Naeini, S. Laframboise, Z. Wasilewski, H. Liu

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Abstract

The design and fabrication of a bi-modal semi-insulating surface-plasmon waveguide for a quantum cascade laser emitting at 3.75 THz is presented. Different transverse modes are excited under different electric current injection due to their different overlapping with the laterally nonuniform gain profile in the active region. HFSS and COMSOL program are used to simulate the near/far field and waveguide loss for various waveguide structures, respectively. It is found that a 150 µm wide surface-plasmon waveguide allows either co-excitation or selective excitation of the first two transverse modes. The total optical loss (i.e., the combination of waveguide and mirror loss) is found below 20 cm−1. An electrically controllable dynamic beam pattern steering is predicted. The near field and far field measurements of a fabricated quantum cascade laser device confirm the theoretical results. The dynamic switching of far-field beam pattern by an angle of 25° is observed when the injected current density changes from 1.9 kA/cm2 to 2.3 kA/cm2.

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太赫兹量子级联激光器双峰工作的波导设计

介绍了一种用于3.75太赫兹量子级联激光器的双模半绝缘表面等离子体波导的设计与制作。不同的横向模在不同的电流注入下被激发，这是由于它们与有源区横向非均匀增益分布的重叠程度不同。利用HFSS和COMSOL程序分别模拟了不同波导结构的近场/远场和波导损耗。研究发现，150 μ m宽的表面等离子体波导允许前两个横向模式的共激发或选择性激发。总光损耗(即波导和反射镜损耗的总和)低于20 cm−1。预测了一种电控动态波束方向控制方法。制备的量子级联激光器件的近场和远场测量证实了理论结果。当注入电流密度从1.9 kA/cm2变化到2.3 kA/cm2时，远场光束模式发生了25°的动态切换。

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2010 IEEE MTT-S International Microwave Symposium

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