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Delay Differential Equation-Based Modeling of Passively Mode-Locked Quantum Dot Lasers Using Measured Gain and Loss Spectra (Postprint).

机译：基于延迟微分方程的被动锁模量子点激光器的建模，使用测量的增益和损耗光谱（后印刷）。

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A highly tunable millimeter-wave subcarrier signal is generated by optically injecting a Fabry-Perot semiconductor laser. The optically injected light, which enables microwave subcarrier frequencies well beyond the injected laser's free-running relaxation oscillation frequency, is then on-off keyed by direct-current (dc) modulation of the injected slave laser. Adjustment of the subcarrier frequency is easily accomplished by changing either the dc bias current and/or junction temperature of the injected slave or the injecting master laser. In this paper, we theoretically and experimentally investigate the purity of the modulated microwave subcarrier. The generated microwave signal was then transmitted over 50 km of single-mode fiber, demonstrating the applicability of a directly modulated slave laser optically injected into the period-one state for radio-over-fiber applications.

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作者
Usechak, N. G.; Kovanis, V.; Raghunathan, R.; Crowley, M. T.; Mukherjee, S. D.;
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年度 2013
页码 1-12
总页数 12
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Semiconductor lasers; Carrier frequencies; Difference equations; Direct current; Fibers; Millimeter waves; Modulation; Quantum dots; Pe;

机译：半导体激光器;载波频率;差分方程;直流电;光纤;毫米波;调制;量子点; pe;

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专利

1. Pulse Characterization of Passively Mode-Locked Quantum-Dot Lasers Using a Delay Differential Equation Model Seeded With Measured Parameters [J] . Raghunathan R., Crowley M.T., Grillot F., IEEE journal of selected topics in quantum electronics . 2013,第4期

机译：使用带测量参数的延迟微分方程模型对无源锁模量子点激光器进行脉冲表征
2. Modeling Passive Mode-Locking in Quantum Dot Lasers: A Comparison Between a Finite-Difference Traveling-Wave Model and a Delayed Differential Equation Approach [J] . Rossetti M., Bardella P., Montrosset I. Quantum Electronics, IEEE Journal of . 2011,第5期

机译：量子点激光器中的无源锁模建模：有限差分行波模型与延迟微分方程方法的比较
3. High peak power and sub-picosecond fourier-limited pulse generation from passively mode-locked monolithic two-section gain-guided tapered InGaAs quantum-dot lasers [J] . Nikitichev D.I., Ding Y., Cataluna M.A., Laser Physics: An International Journal devoted to Theoretical and Experimental Laser Research and Application . 2012,第4期

机译：被动锁模单片两节增益引导锥形InGaAs量子点激光器产生的高峰值功率和亚皮秒傅立叶极限脉冲
4. Delay differential equation-based modeling of passively mode-locked quantum dot lasers using measured gain and loss spectra [C] . Ravi Raghunathan, Mark T. Crowley, Sayan D. Mukherjee, Physics and simulation of optoelectronic devices XX. . 2012

机译：基于延迟微分方程的被动锁模量子点激光器的建模，使用测量的增益和损耗谱
5. Time domain characterization of monolithic quantum dot passively mode-locked lasers. [D] . Mee, Jesse K. 2013

机译：单片量子点无源锁模激光器的时域表征。
6. Investigation of monolithic passively mode-locked quantum dot lasers with extremely low repetition frequency [O] . Tianhong Xu, Juncheng Cao, Ivo Montrosset 2015

机译：具有极低重复频率的单片被动锁模量子点激光器的研究
7. Modeling Passive Mode-Locking in Quantum Dot Lasers: A Comparison Between a Finite-Difference Traveling-Wave Model and a Delayed Differential Equation Approach [O] . M Rossetti, P Bardella, I Montrosset 2011

机译：量子点激光器建模被动模式锁定：有限差分行波模型与延迟微分方程方法的比较

Delay Differential Equation-Based Modeling of Passively Mode-Locked Quantum Dot Lasers Using Measured Gain and Loss Spectra (Postprint).

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