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Optimum gain for plasmonic distributed feedback lasers

机译:等级分布式反馈激光器的最佳增益

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摘要

Although nanolasers typically have low Q factors and high lasing thresholds, they have been successfully implemented with various gain media. Intuitively, it seems that an increase in the gain coefficient would improve the characteristics of nanolasers. For a plasmonic nanolaser-in particular, a distributed feedback laser-we propose a self-consistent model that takes into account both spontaneous emission and the multimode character of laser generation to show that for a given pumping strength, the gain coefficient has an optimal value at which the radiation intensity is at a maximum and the radiation linewidth is at a minimum.
机译:尽管纳米溶解器通常具有低Q因子和高激光阈值,但它们已成功地利用各种增益介质实现。直观地,似乎增益系数的增加会改善纳米液的特性。对于具有等离子体纳秒 - 特别是分布式反馈激光器 - 我们提出了一种自我一致的模型,考虑到激光生成的自发发射和多模特征,以表明对于给定的泵浦强度,增益系数具有最佳值辐射强度在最大值,辐射线宽最小。

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  • 来源
    《Physical Review. B, Condensed Matter》 |2017年第20期|205417.1-205417.11|共11页
  • 作者

    A. A. Zyablovsky; I. A. Nechepurenko; E. S. Andrianov; A. V. Dorofeenko; A. A. Pukhov; A. P. Vinogradov; A. A. Lisyansky;

  • 作者单位

    Dukhov Research Institute for Automatics 22 Sushchevskaya Moscow 127055 Russia Moscow Institute of Physics and Technology 9 Institutskiy pereulok Dolgoprudniy 141700 Moscow Region Russia;

    Dukhov Research Institute for Automatics 22 Sushchevskaya Moscow 127055 Russia Moscow Institute of Physics and Technology 9 Institutskiy pereulok Dolgoprudniy 141700 Moscow Region Russia;

    Dukhov Research Institute for Automatics 22 Sushchevskaya Moscow 127055 Russia Moscow Institute of Physics and Technology 9 Institutskiy pereulok Dolgoprudniy 141700 Moscow Region Russia;

    Dukhov Research Institute for Automatics 22 Sushchevskaya Moscow 127055 Russia Moscow Institute of Physics and Technology 9 Institutskiy pereulok Dolgoprudniy 141700 Moscow Region Russia Institute for Theoretical and Applied Electromagnetics RAS 13 Izhorskaya Moscow 125412 Russia;

    Dukhov Research Institute for Automatics 22 Sushchevskaya Moscow 127055 Russia Moscow Institute of Physics and Technology 9 Institutskiy pereulok Dolgoprudniy 141700 Moscow Region Russia Institute for Theoretical and Applied Electromagnetics RAS 13 Izhorskaya Moscow 125412 Russia;

    Dukhov Research Institute for Automatics 22 Sushchevskaya Moscow 127055 Russia Moscow Institute of Physics and Technology 9 Institutskiy pereulok Dolgoprudniy 141700 Moscow Region Russia Institute for Theoretical and Applied Electromagnetics RAS 13 Izhorskaya Moscow 125412 Russia;

    Department of Physics Queens College of the City University of New York Queens New York 11367 USA The Graduate Center of the City University of New York New York 10016 USA;

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