Evolution of Self-similar Parabolic Pulses In Optical Fiber Amplifiers

机译：光纤放大器中自相似抛物线脉冲的演变

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We simulated the evolution of self-similar parabolic pulses (similaritons) in a normally dispersive fiber amplifier. The rate of development of a Gaussian pulse into the asymptotic parabolic regime has been studied. The model has been applied to an optical transmission system with a fiber amplifier. By calculating the Q-factor, we numerically determined the signal to noise performance of the pulse train along fiber length. For the parameters we used, a 6m long fiber amplifier with 20 dB gain is capable of amplifying 200Gb/s initial chirp-free Gaussian pulses of duration 0.4ps with no distortion and additional noise. The trade-off between pulse width and amplifier length has been studied.

机译：我们模拟了正常色散光纤放大器中自相似抛物线形脉冲（相似子）的演化。已经研究了高斯脉冲向渐近抛物线状态发展的速率。该模型已应用于带有光纤放大器的光传输系统。通过计算Q因子，我们在数值上确定了沿光纤长度的脉冲序列的信噪性能。对于我们使用的参数，具有20 dB增益的6m长光纤放大器能够放大200ps / s的初始持续时间为0.4ps的无chi高斯脉冲，而不会产生失真和额外的噪声。已经研究了脉冲宽度和放大器长度之间的权衡。

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来源
《Conference on physics and simulation of optoelectronic devices XVII; 20090126-29; San Jose, CA(US) 》|2009年|P.72111A.1-72111A.7|共7页
会议地点 San Jose CA(US)
作者
Z. Chen; H. Sun; S. Ma; N. K. Dutta;
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作者单位

Department of Physics, University of Connecticut, Storrs, CT 06269;

Department of Physics, University of Connecticut, Storrs, CT 06269;

Department of Physics, University of Connecticut, Storrs, CT 06269;

Department of Physics, University of Connecticut, Sto;

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正文语种 eng
中图分类光电子技术、激光技术 ;
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专利

1. Self-similar parabolic pulses in optical fiber amplifiers with gain dispersion and gain saturation [J] . Jie-Fang Zhang, Lei Wu, Lu Li Physical Review, A. Atomic, molecular, and optical physics . 2008 ,第5aPta2期

机译：具有增益色散和增益饱和的光纤放大器中的自相似抛物线脉冲
2. Self-similar parabolic pulses in optical fiber amplifiers with gain dispersion and gain saturation [J] . Zhang Jie-Fang, Wu Lei, Li Lu Physical Review, A. Atomic, molecular, and optical physics . 2008 ,第5aPta1期

机译：具有增益色散和增益饱和的光纤放大器中的自相似抛物线脉冲
3. Self-similar parabolic pulses in optical fiber amplifiers with gain dispersion and gain saturation [J] . Jie-Fang Zhang, Lei Wu, Lu Li Physical Review, A. Atomic, molecular, and optical physics . 2008 ,第5aPta2期

机译：具有增益色散和增益饱和的光纤放大器中的自相似抛物线脉冲
4. Evolution of Self-similar Parabolic Pulses In Optical Fiber Amplifiers [C] . Z. Chen, H. Sun, S. Ma, SPIE Conference on Physics and Simulation of Optoelectronic Devices . 2009

机译：光纤放大器中自相似抛物型脉冲的演变
5. A solar energy collection system utilizing optical fibers and compound parabolic concentrators [D] . Khatri, Noor M. 1991

机译：利用光纤和复合抛物线聚光器的太阳能收集系统
6. Generation of 42-fs and 10-nJ pulses from a fiber laser with self-similar evolution in the gain segment [O] . Bai Nie, Dmitry Pestov, Frank W. Wise, -1

机译：从光纤激光器产生42fs和10nJ脉冲增益段具有自相似的演化
7. Self-similar propagation of parabolic pulses in normal-dispersion fiber amplifiers [O] . Kruglov V.I., Peacock A.C., Harvey J.D., 2002

机译：抛物线脉冲在正常色散光纤放大器中的自相似传播
8. Pulse Propagation in Nonlinear Optical Fibers using Phase-Sensitive Amplifiers [R] . Kutz, J. N. 1994

机译：采用相敏放大器的非线性光纤脉冲传输

Evolution of Self-similar Parabolic Pulses In Optical Fiber Amplifiers

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