利用V4AlC3薄膜锁模产生掺铒光纤激光器中的皮秒脉冲

Pub Date : 2023-08-26 DOI:10.1007/s10946-023-10145-7
Nur Zulaikha Mohd Safuan, Ahmad Haziq A. Rosol, NurFarhanah Zulkipli, Moh Yasin, Sulaiman Wadi Harun
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引用次数: 0

摘要

短脉冲在各种工业和科学应用中显示出越来越重要的作用。在这里,我们利用钒铝碳化物(V4AlC3)的三元层状max相化合物(V4AlC3)的可饱和吸收,在掺铒光纤激光器(EDFL)腔中产生锁模脉冲。将工业V4AlC3粉末包埋在聚乙烯醇(PVA)中,成功制备了调制深度为24%的V4AlC3复合薄膜。它被集成到一个EDFL腔中,作为一个饱和吸收器(SA),产生一个高度稳定的锁模脉冲,其工作波长为1559.8 nm。我们成功地获得了固定重复频率为1.8 MHz、脉冲宽度为3.66 ps的锁模脉冲序列,泵浦功率设置在73.1 ~ 108.1 mW范围内。在泵浦最大功率为108.1 mW时,平均输出功率为10.2 mW,脉冲能量为5.4 nJ,峰值功率为1.5 W。总的来说,这些结果显示了V4AlC3 max相材料在超快一代中应用的潜力。所提出的方法是直接的,也可以应用于其他波长区域的操作。
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Generation of Picosecond Pulses in Erbium-Doped Fiber Lasers Via Mode Locking Using V4AlC3 Thin Film

Short pulses are showing increasing importance in various industrial and scientific applications. Here, we exploit the saturable absorption of a ternary layered MAX-phase compound of Vanadium Aluminum carbide (V4AlC3) to produce mode-locked pulses in Erbium-doped fiber-laser (EDFL) cavity. The V4AlC3 composite thin film with a modulation depth of 24% is successfully obtained by embedding the commercial V4AlC3 powder into polyvinyl alcohol (PVA). It is integrated into an EDFL cavity, as a saturable absorber (SA), to generate a highly-stable mode-locked pulse, which operates at the 1559.8 nm wavelength. We successfully obtain the mode-locked pulse train with a fixed repetition rate of 1.8 MHz and a pulse width of 3.66 ps, as the pump power is set within a range from 73.1 to 108.1 mW. At the maximum pump power equal to 108.1 mW, the average output power, pulse energy, and peak power are 10.2 mW, 5.4 nJ, and 1.5 W, respectively. Overall, these results show the potential of V4AlC3 MAX-phase material to be used in ultrafast generation. The proposed approach is straightforward and can also be applied to operate in other wavelength regions.

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