论文信息 - Q-switched dual-wavelength pumped 3.5-μm erbium-doped mid-Infrared fiber laser

Q-switched dual-wavelength pumped 3.5-μm erbium-doped mid-Infrared fiber laser

Short pulse operation of fiber lasers operating at wavelengths up 3 micron have been reported in recent years. At longer wavelengths, fiber lasers have only been demonstrated with a continuous operation mode. Short pulse operation in the mid-IR is necessary for utilizing such lasers in laser radars and for medical applications. Our previous numerical work suggested that Q-switching is possible on the 3.5 μm transition in erbium-doped ZBLAN in a similar manner to work demonstrated on the 2.8 μm transition in erbium. In this work we report on initial experimental results of a Q-switched, dualwavelength pumped fiber laser operating on the 3.5 μm transition in erbium-doped ZBLAN glass fibers. Using a hybrid fiber and open resonator configuration utilizing an acousto-optic modulator we demonstrated stable single pulse Q-switching while operating at repetition rates of 20 kHz and up to 120 kHz. The laser achieved a peak power of 8 W with pulse energy of 7 μJ while operating at 25 kHz. Long pulse widths on the order of 1 μs were obtained. The low peak power and long pulses are likely the result of both low gain of the transition and additional losses in the resonator which are currently being investigated. Our latest results will be presented.

[1] Matthew R Majewski,et al. Tunable dysprosium laser. , 2016, Optics letters.

[2] D. Hudson,et al. Stable, self-starting, passively mode-locked fiber ring laser of the 3 μm class. , 2014, Optics letters.

[3] Shigeki Tokita,et al. 12 W Q-switched Er:ZBLAN fiber laser at 2.8 μm. , 2011, Optics letters.

[4] S. Jackson,et al. Q-switched induced gain switching of a two-transition cascade laser. , 2012, Optics express.

[5] Jesper Munch,et al. New energy-transfer upconversion process in Er3+:ZBLAN mid-infrared fiber lasers. , 2016, Optics express.

[6] Norman P. Barnes,et al. Mid infrared lasers for remote sensing applications , 2016 .

[7] Ori Henderson-Sapir,et al. Versatile and widely tunable mid-infrared erbium doped ZBLAN fiber laser. , 2016, Optics letters.

[8] R. Vallée,et al. Quenching of $3.4~\mu \text{m}$ Dual-Wavelength Pumped Erbium Doped Fiber Lasers , 2017, IEEE Journal of Quantum Electronics.

[9] Angela B. Seddon,et al. Mid‐infrared (IR) – A hot topic: The potential for using mid‐IR light for non‐invasive early detection of skin cancer in vivo , 2013 .

[10] Réal Vallée,et al. Watt-level erbium-doped all-fiber laser at 3.44 μm. , 2016, Optics letters.

[11] Stuart D. Jackson,et al. Recent Advances in 3.5 μm Erbium-Doped Mid-Infrared Fiber Lasers , 2017, IEEE Journal of Selected Topics in Quantum Electronics.