Theory and simulation of ultrafast carrier dynamics and nonlinear pulse propagation in quantum dot semiconductor optical amplifiers

机译：量子点半导体光放大器中超快载波动力学和非线性脉冲传播的理论和仿真

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We investigate the propagation of an ultra-fast light pulse dynamically interacting with the charge carrier plasma in the active area of a quantum dot semiconductor optical amplifier (QD-SOA). The coupled spatio-temporal dynamics of light-fields and carriers in a spatially inhomogeneous dot ensemble is described on the basis of Maxwell-Bloch equations. In this approach the light fields within the QD-SOA are calculated using wave equations that are coupled to Quantum Dot Bloch equations describing the dynamics of the carriers in the active gain medium. In addition, we simulate the dynamics of the carriers in the embedding medium, including scattering of charge carriers between wetting layer and quantum dots. Our numerical results show that the shape and duration of an ultra-short pulse propagating through the amplifier is determined by a complex combination of hole level burning and dynamic scattering processes.

机译：我们研究了在量子点半导体光学放大器（QD-SOA）的有效区域中与电荷载体等离子体动态相互作用的超快速光脉冲的传播。基于Maxwell-Bloch方程描述了空间不均匀点集合中的光场和载波的耦合时空动态。在这种方法中，使用波方程来计算QD-SOA内的光场，该波形方程耦合到描述活动增益介质中载波的动态的量子点BLOCH方程。另外，我们模拟嵌入介质中载体的动态，包括润湿层和量子点之间的电荷载体的散射。我们的数值结果表明，通过放大器传播的超短脉冲的形状和持续时间由孔电平燃烧和动态散射工艺的复杂组合来确定。

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《International Conference on Numerical Simulation of Optoelectronic Devices》|2005年||共2页
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Reschner D.W.; Gehrig E.; Hess O.;
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中图分类自动化技术、计算机技术;
关键词
Maxwell equations; high-speed optical techniques; laser beams; optical hole burning; quantum dot lasers; semiconductor optical amplifiers; Maxwell-Bloch equation; Quantum Dot Bloch equation; charge carrier plasma; coupled spatio-temporal dynamics; dynamic scatteri;

机译：Maxwell方程;高速光学技术;激光束;光孔燃烧;量子点激光;半导体光放大器;Maxwell-Bloch方程;量子点Bloch方程;电荷载体等离子体;耦合时空动态;动态散射;

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1. Impact of carrier-carrier scattering and carrier heating on pulse train dynamics of quantum dot semiconductor optical amplifiers [J] . Niels Majer, Kathy Ludge, Jordi Gomis-Bresco, Applied Physics Letters . 2011,第13期

机译：载流子和载流子的扩散对量子点半导体光放大器脉冲序列动力学的影响
2. Design of ultrafast all-optical pulsed-mode 2 x 2 crossbar switch using quantum-dot semiconductor optical amplifier-based Mach-Zehnder interferometer [J] . Kastritsis Dimitris, Zoiros Kyriakos E., Dimitriadou Evangelia Journal of Computational Electronics . 2016,第3期

机译：基于量子点半导体光放大器的Mach-Zehnder干涉仪设计超快全光脉冲模式2 x 2交叉开关
3. On the noise properties of linear and nonlinear quantum-dot semiconductor optical amplifiers: the impact of inhomogeneously broadened gain and fast carrier dynamics [J] . Bilenca A., Eisenstein G. IEEE Journal of Quantum Electronics . 2004,第6期

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4. Theory and simulation of ultrafast carrier dynamics and nonlinear pulse propagation in quantum dot semiconductor optical amplifiers [C] . Reschner, D.W., Gehrig, . 2005

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5. Ultrafast carrier dynamics in semiconductor self-assembled quantum dots in the low carrier density regime. [D] . Urayama, Junji. 2002

机译：在低载流子密度状态下，半导体自组装量子点中的超快载流子动力学。
6. Numerical study of wavelength-swept semiconductor ring lasers: the role of refractive-index nonlinearities in semiconductor optical amplifiers and implications for biomedical imaging applications [O] . A. Bilenca, S. H. Yun, G. J. Tearney, -1

机译：波长扫描半导体环形激光器的数值研究：折射率非线性在半导体光放大器中的作用及其对生物医学成像应用的影响
7. Theory and simulation of ultrafast carrier dynamics and nonlinear pulse propagation in quantum dot semiconductor optical amplifiers [O] . Reschner, DW, Gehrig, E, Hess, O, 2004

机译：量子点半导体光放大器中超快载流子动力学和非线性脉冲传播的理论与仿真
8. Optical Nonlinearities and Ultrafast Carrier Dynamics in Semiconductor Quantum211 Dots [R] . Klimov, V., McBranch, D., Schwarz, C. 1998

机译：半导体Quantum211点的光学非线性和超快载流子动力学

Theory and simulation of ultrafast carrier dynamics and nonlinear pulse propagation in quantum dot semiconductor optical amplifiers

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