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Nanoscale Photonic Waveguides: A Chip‐Scale Optical Frequency Reference for the Telecommunication Band Based on Acetylene (Laser Photonics Rev. 14(6)/2020)
Laser & Photonics Reviews ( IF 9.8 ) Pub Date : 2020-06-15 , DOI: 10.1002/lpor.202070036 Roy Zektzer , Matthew T. Hummon , Liron Stern , Yoel Sebbag , Yefim Barash , Noa Mazurski , John Kitching , Uriel Levy
Laser & Photonics Reviews ( IF 9.8 ) Pub Date : 2020-06-15 , DOI: 10.1002/lpor.202070036 Roy Zektzer , Matthew T. Hummon , Liron Stern , Yoel Sebbag , Yefim Barash , Noa Mazurski , John Kitching , Uriel Levy
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Lasers stabilized to known transitions between energy levels in well‐isolated quantum systems are essential for numerous applications, e.g. in metrology, optical communications, and sensing. In article number 1900414, Uriel Levy, Roy Zektzer, and co‐workers demonstrate a chip scale integrated photonic‐molecular system where acetylene molecules are coupled to photonic nano‐waveguides, providing narrow and stable absorption signals to which a telecom laser frequency is stabilized.
中文翻译:
纳米级光子波导:基于乙炔的电信频段的芯片级光频率参考(激光光子,修订版14(6)/ 2020)
稳定在良好隔离的量子系统中的能级之间的已知跃迁的激光器对于众多应用(例如,计量,光通信和传感)至关重要。Uriel Levy,Roy Zektzer和同事在文章编号1900414中展示了一种芯片级集成光子分子系统,其中乙炔分子耦合至光子纳米波导,可提供窄而稳定的吸收信号,从而使电信激光频率稳定下来。
更新日期:2020-06-15
中文翻译:
纳米级光子波导:基于乙炔的电信频段的芯片级光频率参考(激光光子,修订版14(6)/ 2020)
稳定在良好隔离的量子系统中的能级之间的已知跃迁的激光器对于众多应用(例如,计量,光通信和传感)至关重要。Uriel Levy,Roy Zektzer和同事在文章编号1900414中展示了一种芯片级集成光子分子系统,其中乙炔分子耦合至光子纳米波导,可提供窄而稳定的吸收信号,从而使电信激光频率稳定下来。
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