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Self-mode-locked AlGalnP-VECSEL

机译:自锁模AlGalnP-VECSEL

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摘要

We report the mode-locked operation of an AlGaInP-based semiconductor disk laser without a saturable absorber. The active region containing 20 GaInP quantum wells is used in a linear cavity with a curved outcoupling mirror. The gain chip is optically pumped by a 532 nm laser, and mode-locking is achieved by carefully adjusting the pump spot size. For a pump power of 6.8 W, an average output power of up to 30 mW is reached at a laser wavelength of 666 nm. The pulsed emission is characterized using a fast oscilloscope and a spectrum analyzer, demonstrating stable single-pulse operation at a repetition rate of 3.5 GHz. Intensity autocorrelation measurements reveal a FWHM pulse duration of 22 ps with an additional coherence peak on top, indicating noise-like pulses. The frequency spectrum, as well as the Gaussian beam profile and the measured beam propagation factor below 1.1, shows no influence of higher order transverse modes contributing to the mode-locked operation.
机译:我们报告了不具有饱和吸收体的基于AlGaInP的半导体磁盘激光器的锁模操作。包含20个GaInP量子阱的有源区用于带有弯曲输出耦合镜的线性腔中。增益芯片由532 nm激光器进行光泵浦,并通过仔细调节泵浦光斑尺寸来实现锁模。对于6.8 W的泵浦功率,在666 nm的激光波长下,平均输出功率可达30 mW。使用快速示波器和频谱分析仪对脉冲发射进行表征,以3.5 GHz的重复频率演示稳定的单脉冲操作。强度自相关测量显示FWHM脉冲持续时间为22 ps,顶部有一个附加的相干峰,表示类似噪声的脉冲。频谱,高斯光束分布图和测得的光束传播系数低于1.1,对高阶横向模态对锁模操作没有影响。

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  • 来源
    《Applied Physics Letters》 |2017年第18期|182105.1-182105.4|共4页
  • 作者

    R. Bek; M. Groβmann; H. Kahle; M. Koch; A. Rahimi-Iman; M. Jetter; P. Michler;

  • 作者单位

    Institut fuer Halbleiteroptik und Funktionelle Grenzflaechen, Center for Integrated Quantum Science and Technology (IQ~(ST)) and Research Center SCoPE, University of Stuttgart, Allmandring 3, 70569 Stuttgart, Germany;

    Institut fuer Halbleiteroptik und Funktionelle Grenzflaechen, Center for Integrated Quantum Science and Technology (IQ~(ST)) and Research Center SCoPE, University of Stuttgart, Allmandring 3, 70569 Stuttgart, Germany;

    Institut fuer Halbleiteroptik und Funktionelle Grenzflaechen, Center for Integrated Quantum Science and Technology (IQ~(ST)) and Research Center SCoPE, University of Stuttgart, Allmandring 3, 70569 Stuttgart, Germany;

    Department of Physics and Materials Sciences Center, Philipps-Universitaet Marburg, Renthof 5, 35032 Marburg, Germany;

    Department of Physics and Materials Sciences Center, Philipps-Universitaet Marburg, Renthof 5, 35032 Marburg, Germany;

    Institut fuer Halbleiteroptik und Funktionelle Grenzflaechen, Center for Integrated Quantum Science and Technology (IQ~(ST)) and Research Center SCoPE, University of Stuttgart, Allmandring 3, 70569 Stuttgart, Germany;

    Institut fuer Halbleiteroptik und Funktionelle Grenzflaechen, Center for Integrated Quantum Science and Technology (IQ~(ST)) and Research Center SCoPE, University of Stuttgart, Allmandring 3, 70569 Stuttgart, Germany;

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