Overcoming the maximum amplification limit of coherent optical pulses in semiconductor optical amplifiers with time-polarization multiplexing

Marcelo M. Resende; Pedro Tovar; Gustavo C. Amaral; Jean Pierre von der Weid

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Overcoming the maximum amplification limit of coherent optical pulses in semiconductor optical amplifiers with time-polarization multiplexing

机译：通过时间偏振复用克服半导体光放大器中相干光脉冲的最大放大极限

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摘要

We present a time-polarization multiplexing setup that overcomes the maximum amplification limit of semiconductor optical amplifiers (SOAs) in the pulsed regime. A coherent optical pulse at the input is equally divided into two, which are independently amplified, and coherently recombined to compose an oversaturation amplified optical pulse at the output. This simple topology, containing an SOA and few extra devices, offers 1.96-dB oversaturation gain in comparison with a single SOA. Furthermore, little experimental complexity and, thus, cost, are required by the proposed topology.

机译：我们提出了一种时间极化多路复用设置，该设置克服了脉冲状态下半导体光放大器（SOA）的最大放大极限。输入端的相干光脉冲被平均分为两部分，分别被放大并相干重组以在输出端组成过饱和放大的光脉冲。这种简单的拓扑包含一个SOA和少量额外的设备，与单个SOA相比，具有1.96 dB的过饱和增益。此外，所提出的拓扑仅需要很少的实验复杂性并因此需要成本。

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来源
《Optical engineering》 |2017年第11期|110502.1-110502.3|共3页
作者
Marcelo M. Resende; Pedro Tovar; Gustavo C. Amaral; Jean Pierre von der Weid;
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作者单位

Pontifical Catholic University of Rio de Janeiro, Center for Telecommunications Studies, Rio de Janeiro, Brazil;

Pontifical Catholic University of Rio de Janeiro, Center for Telecommunications Studies, Rio de Janeiro, Brazil;

Pontifical Catholic University of Rio de Janeiro, Center for Telecommunications Studies, Rio de Janeiro, Brazil,University of Calgary, Institute for Quantum Science and Technology, Department of Physics and Astronomy,Calgary, Alberta, Canada;

Pontifical Catholic University of Rio de Janeiro, Center for Telecommunications Studies, Rio de Janeiro, Brazil;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
optical amplification; saturation gain; time-polarization multiplexing;

机译：光学放大饱和增益时间极化复用;

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专利

1. Time-polarization multiplexing for increased output power of semiconductor optical amplifiers in the pulsed regime [J] . Amaral Gustavo C., Herrera Luis E. Y., Resende Marcelo M., Applied optics . 2016,第28期

机译：时间极化多路复用可在脉冲状态下提高半导体光放大器的输出功率
2. Time-polarization multiplexing for increased output power of semiconductor optical amplifiers in the pulsed regime [J] . Amaral Gustavo C., Herrera Luis E. Y., Resende Marcelo M., Applied optics . 2016,第28期

机译：时间极化多路复用可在脉冲状态下提高半导体光放大器的输出功率
3. Energy limits imposed by two-photon absorption for pulse amplification in high-power semiconductor optical amplifiers [J] . Faisal R. Ahmad, Yen Wei Tseng, Mikhail A. Kats, Optics Letters . 2008,第10期

机译：高功率半导体光放大器中由双光子吸收对脉冲放大施加的能量限制
4. AMPLIFICATION OF AN OPTICAL PULSES SEQUENCE IN SEMICONDUCTOR OPTICAL AMPLIFIERS [C] . T. Arabadzhiev, I. Uzunov Laser Physics and Applications . 2003

机译：半导体光学放大器中光学脉冲序列的放大
5. Optical subcarrier multiplexed signal processing using semiconductor optical amplifiers. [D] . Vaughn, Mark Douglas. 1998

机译：使用半导体光放大器的光子载波多路复用信号处理。
6. Quantum coherence induces pulse shape modification in a semiconductor optical amplifier at room temperature [O] . Mirco Kolarczik, Nina Owschimikow, Julian Korn, -1

机译：室温下量子相干引起半导体光放大器中的脉冲形状改变
7. Coherent control in room-temperature quantum dot semiconductor optical amplifiers using shaped pulses [O] . Karni, Ouri, Mishra, Akhilesh Kumar, Eisenstein, Gadi, 2016

机译：室温量子点半导体光学中的相干控制使用成形脉冲的放大器
8. Integration of Semiconductor Optical Amplifiers in Wavelength Division Multiplexing Photonic Integrated Circuits. Application of Selective Area Chemical Beam Epitaxy. [R] . Harmsma, P. J. 2000

机译：半导体光放大器在波分复用光子集成电路中的集成。选区化学束外延的应用。

Overcoming the maximum amplification limit of coherent optical pulses in semiconductor optical amplifiers with time-polarization multiplexing

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