Wavelength tunable optically pumped semiconductor disk laser based on SESAM mode locking

Bihui Zhuang, Lingling Hua, J. Tian, Yanrong Song
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Abstract

We demonstrated a wavelength tunable mode-locked optically pumped semiconductor disk laser (OP-SDL) based on a SESAM. The wavelength tuning is achieved by incorporating an uncoated, 100 μm thick, fused silica etalon into the cavity of the laser, and the central wavelength of the pulse train varied from 972 nm to 977 nm. The average power of the mode-locked states measured at different wavelengths was about 80mW, meanwhile, the repetition rate was 1.2 GHz in the tuning process, and the signal-to-noise ratio of the radio frequency spectrum signal exceeds 50 dB, which illustrates that the laser can maintain a stable mode-locked state even the central wavelength varies greatly. In addition, we calculated the influence of etalon's related parameters on its transmittance. This research contributes to the development of wavelength-tunable mode-locked OP-SDLs and to gain practical applications in related fields.
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基于SESAM模式锁定的波长可调谐光泵浦半导体磁盘激光器
我们展示了一种基于SESAM的波长可调锁模光泵浦半导体光盘激光器(OP-SDL)。波长调谐是通过将一个100 μm厚的无涂层石英标准龙放入激光器腔内来实现的,脉冲串的中心波长在972 nm到977 nm之间变化。不同波长下测得的锁模态平均功率约为80mW,调谐过程中重复频率为1.2 GHz,射频频谱信号的信噪比超过50 dB,说明即使中心波长变化较大,激光器也能保持稳定的锁模状态。此外,我们还计算了标准子的相关参数对其透过率的影响。该研究有助于波长可调谐锁模OP-SDLs的发展,并在相关领域获得实际应用。
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