采用45°倾斜光纤光栅的新型飞秒激光器实现全光纤锁模掺铥光纤激光器

A. Theodosiou, J. Aubrecht, Nithyanandan Kanagaraj, P. Peterka, K. Kalli, I. Kašík, P. Honzátko
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在工业和医疗应用的推动下,特别是在激光手术、生物医学成像、医学和传感等所谓的“眼睛安全”应用中,工作在~ 2μm的锁模光纤激光器的最新发展正在加速[1]。光纤激光器虽然是实用的设备,但在可重复的实验条件下,它仍然是揭示大量复杂超快动力学的良好研究途径。多用途全光纤激光源的发展是有吸引力的,因为它们提高了效率,坚固和紧凑的配置。人工饱和吸收器的发展,如基于光学克尔效应的非线性偏振旋转(NPR),使全光纤格式的实现成为可能。然而,在混合激光设计中,使用大块偏振器降低了基于光纤格式的感知优势。在本次通信中,我们采用了最近开发的45°倾斜光纤光栅(TFG),该光栅使用飞秒激光器[2]作为全光纤激光器中的直线光纤偏振器[3]。这种光栅刻字工艺比传统的45°-TFG紫外激光刻字具有优势,并且基于使用飞秒激光的逐平面直接书写,因为它既不需要相位掩模,也不需要氢气加载过程,这通常是情况。
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All-Fiber Mode-Locked Thulium Doped Fiber Laser using a Novel Femtosecond Laser Inscribed 45° Tilted Fiber Grating
The recent development of mode-locked fiber lasers operating at ∼2μm is accelerating, driven by industrial and medical applications, particularly in the so-called "eye-safe" applications of laser surgery, biomedical imaging, medicine and sensing [1]. While being practical devices, given reproducible experimental conditions, fiber lasers continue to be an excellent research avenue to unveil a plethora of complex ultrafast dynamics. Developments on versatile all-fiber laser sources are attractive, due to their increased efficiency, robust and compact configurations. The development of artificial saturable absorbers, such as nonlinear polarization rotation (NPR) based on the optical Kerr effect, has enabled the realization of all-fiber formats. However, in hybrid laser designs, the use of bulk polarizers reduces the perceived advantage of the fiber-based format. In this communication, we employ a recently developed 45° tilted fiber grating (TFG) inscribed using femtosecond laser [2] as an in-line fiber polarizer in an all-fiber laser [3]. This grating inscription process offer advantages over traditional 45°-TFG UV-laser inscription, and is based on plane-by-plane, direct writing using a femtosecond laser, as it neither requires a phase mask nor a hydrogen loading process, as is usually the case.
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