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41.
The present paper deals with the analysis of a non-oxide type of vertical-cavity surface-emitting laser (VCSEL) for operation
at 850 nm. The modeling and characterization of the VCSEL is presented in the context of design considerations. Efforts are
made to emphasize the behavioral features of the proposed VCSEL, in view of the analytical investigation, which has been performed
through a series of simulations for various relevant parameters that are vital for the determination of the VCSEL characteristics.
Some of these parameters are the intensity and refractive-index distributions, gain response, spontaneous emission, material
gain variations, etc. The results obtained are compared with the oxide-confined VCSEL. It is observed that the proposed model
of the VCSEL is suitable at the operating wavelength of 850 nm. 相似文献
42.
文章采用连续波激射的太赫兹量子级联激光器(THz QCL) 为发射端、光谱匹配的THz量子阱探测器(THz QWP) 为接收端, 搭建了基于THz波的无线传输演示系统. 测量并分析了该演示系统的传输带宽. 采用搭建的无线传输系统演示了基于4.13 THz电磁波的图片文件的无线传输过程, 得到了与源文件一致的结果, 验证了采用THz QCL和THz QWP进行THz信号无线传输的可行性.最后, 分析了演示系统的传输速率, 给出了提高系统传输速率的方法. 相似文献
43.
为了提高852 nm半导体激光器的温度稳定性,理论计算了InGaAlAs、InGaAsP、InGaAs和GaAs量子阱的增益,模拟对比并研究了不同量子阱的增益峰值和峰值波长随温度的漂移。结果显示,采用In0.15Ga0.74-Al0.11As作为852 nm半导体激光器的量子阱可以使器件同时具有较高的增益峰值和良好的温度稳定性。使用金属有机化学气相沉积(MOCVD)外延生长了压应变In0.15Ga0.74Al0.11As单量子阱852 nm半导体激光器,实验测得波长随温度漂移的数值为0.256 nm/K,实验测试结果验证了理论计算结果。 相似文献