共查询到19条相似文献,搜索用时 62 毫秒
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在理论上研究了行波半导体光放大器的增益饱和特性,并从半导体的单模速率方程出发,应用半导体光放大器的传输波动方程,推导了放大器的增益特性表达式。从中得出:当放大器的输出功率为饱和输出功率时,信号增益相对于不饱和增益降低4.34dB。 相似文献
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详细讨论了行波半导体激光放大器工作在饱和状态时,入射脉冲的脉宽和放大器工作状态对放大脉冲的形状和频谱的影响,有利于更好地利用增益饱和的光放大器的非线性特性对光信号进行相位补偿。 相似文献
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采用三元InGaAs体材料为有源区,通过直接在InGaAs体材料中引入0.20%张应变来加强TM模的增益,研制了一种适合于作波长变换器的偏振不灵敏半导体光放大器(SOA)。在低压金属有机化学气相外延(LPMOVPE)的过程中,只需调节三甲基Ga的源流量便可获得所要求的张应变量。制作的半导体光放大器在200mA的注入电流下,获得了50nm宽的3dB光带宽和小于0.5dB的增益抖动;重要的是,半导体光放大器能在较大的电流和波长范围里实现小于1.1dB的偏振灵敏度。对于1.55gm波长的信号光,在200mA的偏置下,其偏振灵敏度小于1dB,同时获得了大于14dB光纤到光纤的增益,3dBm的饱和输出功率和大于30dB的芯片增益。用作波长变换器,可获得较高的波长变换效率。进一步提高半导体光放大器与光纤的耦合效率,可得到性能更佳的半导体光放大器。 相似文献
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在半导体光放大器中当光脉冲小于10ps时除了考虑线性增益饱和效应,还必须考虑超快增益压缩效压。本文用数值方法分析了超快增益压缩效应对THz光非对称解复用器(TOAD)的开关特性。经过细致的参数优化,采用2.5ps控制光,可以克服开关窗的分裂效应,得到一个宽度为2.0ps,消光比为13.7dB的开关窗。 相似文献
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以行波半导体光放大器速度方程为基础,采用传输矩阵方法,对锥形结构半导体光放大器的增益和饱和特性进行理论研究。讨论了不同锥形长度,不同结构时的增益和饱和特性差异。理论研究表明,锥形结构能改善半导体光放大器的偏振灵敏度。在同一锥度下,长锥形长度能提高饱和增益,降低偏振度。在进行半导体光放大器有源条结构设计时要综合考虑锥度及锥形长度的影响,以实现结构优化 。 相似文献
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Optical gain and saturation characteristics of quantum-dot semiconductor optical amplifiers 总被引:1,自引:0,他引:1
Detailed theoretical analysis of the gain characteristics of quantum-dot semiconductor optical amplifiers (QD-SOA) is presented. An analytical expression for the optical gain is derived from the quantum dot and wetting layer rate equations. Due to the better confinement of carriers in the quantum dots, our calculation shows that large unsaturated optical gain can be obtained at low operating current. Also, we found that the output saturation intensity of QD-SOA is higher than the output saturation intensity of bulk-SOA. This fact lends itself to the design of efficient low-power SOAs. 相似文献
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为了研究垂直腔半导体光放大器(vertical cavity semiconductor optical amplifiers,VCSOA)中抽运光功率、分布布喇格反射镜(distributed Bragger reflector,DBR)周期数以及输入信号强度对其带宽特性的影响,采用传输矩阵法进行了数值模拟。计算模型中考虑了载流子和光强沿纵向的分布,以及腔内介质折射率的不均匀性对光波传输的影响。得到的结果与文献中的结论符合较好。结果表明,提高VCSOAs的抽运水平可以增大其峰值增益,同时会缩小其增益带宽;减小DBR周期数可以获得更大的增益带宽积。另外,输入光信号强度对VCSOA带宽的大小也有较大的影响。 相似文献
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根据行波半导体放大器中载流子复合的实际过程,对放大器饱和参量的表达式作了适当的修正。 相似文献
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We will review three recently-proposed high-speed, all-optical Exclusive OR (XOR) gates operating at 40 and 85?Gb/s, which were demonstrated using ultrafast nonlinear interferometers (UNIs) incorporating semiconductor optical amplifiers (SOAs). The first 40-Gb/s XOR gate was obtained using a dual UNI configuration. The second is a 40-Gb/s XOR gate without additional probe beam required, where the only inputs launched into the setup were data A and B. The XOR logic of data A and B is the sum of two components (A)B and(A)B , each of which was obtained from the output of UNI via cross-phase modulation (XPM) in SOAs. Furthermore, an 85-Gb/s XOR gate is, by far, the fastest XOR gate realized by SOAs, which was also demonstrated using a dual UNI structure. The operating speed of the XOR gate was enhanced by incorporating the recently proposed turbo-switch configuration. In addition, the SOA switching pulse energies of these XOR gates were lower than 100 fJ. 相似文献
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In this paper,we review the recent progress in the optical signal processing based on the nonlinearity of semiconductor optical amplifiers (SOAs).The four important optical signal processing functional blocks in optical switching are presented,i.e.,optical wavelength conversion,optical regeneration,optical logic,and optical format conversion.We present a brief overview of optical wavelength conversion,and focus on various schemes to suppress the slow gain recovery of the SOA and improve the operating speed of the SOA-based optical switches.Optical regeneration including re-amplification,re-shaping and re-timing is also presented.Optical clock recovery that is essential for optical regeneration is reviewed.We also report the recent advances in optical logic and optical format conversion,respectively.After reviewing the four important optical signal processing functional blocks,the review concludes with the future research directions and photonic integration. 相似文献