Copper nanowires based mode-locker for soliton nanosecond pulse generation in erbium-doped fiber laser

E.I. Ismail; F. Ahmad; S. Shafie; H. Yahaya; A.A. Latif; F.D. Muhammad

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Copper nanowires based mode-locker for soliton nanosecond pulse generation in erbium-doped fiber laser

机译：基于铒掺杂光纤激光器中孤子纳秒脉冲产生的铜纳米线的换流器

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A mode-locked nanosecond Erbium-doped fiber laser (EDFL) based on copper nanowires (CuNWs) saturable absorber (SA) is successfully demonstrated in this article. The CuNWs were prepared by dissolving the CuNWs solution in a polydimethylsiloxane (PDMS) host polymer. Through the doctor blade technique, a free-standing CuNWs-PDMS film was formed. Upon inserting the film in a laser cavity, nanosecond pulses with a stable mode-locking was observed past the threshold pump power of 104.62?mW. The laser operated at the center frequency of 1.86?MHz and wavelength of 1563.3?nm. At the maximum available pump power of 187.04?mW, the 173?ns mode-locked pulse train achieved the highest pulse energy of 9.14?nJ and the maximum average output power of 1.703?mW. These results vindicate the capacity of the CuNWs film SA in producing nanosecond mode-locked EDFL in the 1550?nm region.

机译：本文成功地证明了基于铜纳米线（CUNW）可饱和吸收剂（SA）的锁定纳秒掺铒光纤激光器（EDFL）。通过将CUNWS溶液溶解在聚二甲基硅氧烷（PDMS）宿主聚合物中来制备CUNW。通过刮刀技术，形成独立的CUNWS-PDMS膜。在激光腔中插入膜时，观察到具有稳定模式锁定的纳秒脉冲，超过阈值泵功率为104.62Ωmw。激光在1.86ΩMHz的中心频率下操作，波长为1563.3Ω·纳米。在187.04的最大可用泵功率下，173？NS模式锁定脉冲串实现了9.14的最高脉冲能量，最高脉冲能量为1.703Ω·MW的最高平均输出功率。这些结果使CUNWS薄膜SA在1550？NM区域中生产纳秒模式锁定EDFL的CUNWS薄膜SA的容量。

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《Results in Physics》 |2020年第60期|共6页
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E.I. Ismail; F. Ahmad; S. Shafie; H. Yahaya; A.A. Latif; F.D. Muhammad;
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Nanosecond pulseFiber laserCopper nanowires;

机译：纳秒脉冲型喇叭仪纳米线;

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1. Nanosecond soliton pulse generation by mode-locked erbium-doped fiber laser using single-walled carbon-nanotube-based saturable absorber [J] . Mohd Afiq Ismail, Sulaiman Wadi Harun, Nurul Rozullyah Zulkepely, Applied optics . 2012,第36期

机译：使用单壁碳纳米管可饱和吸收器通过锁模掺fiber光纤激光器产生纳秒孤子脉冲
2. Generation of noise-like pulses and soliton rains in a graphene mode-locked erbium-doped fiber ring laser [J] . Pinghua TANG, Mulin LUO, Ting ZHAO, 浙江大学学报（英文版）（C辑：计算机与电子） . 2021,第003期

机译：在石墨烯锁定的铒掺杂光纤环激光激光器中产生噪声样脉冲和孤子降雨
3. Generation of Vector Soliton Pulses with Graphene Oxide Film in Mode-locked Erbium-doped Fiber Laser Cavity [J] . Nonlinear Optics, Quantum Optics . 2020,第1a2期

机译：载体氧化纤维膜在模式锁定的铒掺杂光纤激光腔中产生载体孤子脉冲
4. Short pulse generation from actively mode-locked erbium-doped fiber ring laser using a DFB semiconductor laser as mode-locker and tunable filter [C] . Rodrigues de Lima, A.P.C., Carvalho, . 2001

机译：使用DFB半导体激光器作为锁模器和可调滤波器，由有源锁模掺fiber光纤环形激光器产生短脉冲
5. Ultrashort soliton pulse generation using erbium-doped fiber lasers. [D] . Schlager, John Benedict. 1992

机译：使用掺fiber光纤激光器产生超短孤子脉冲。
6. Reduced Graphene Oxide-Silver Nanoparticles for Optical Pulse Generation in Ytterbium- and Erbium-Doped Fiber Lasers [O] . Harith Ahmad, Hissah Saedoon Albaqawi, Norazriena Yusoff, -1

机译：用于掺-和掺ide光纤激光器中光脉冲产生的还原石墨烯氧化物银纳米颗粒
7. Passive harmonic mode locking of twin-pulse solitons in an erbium-doped fiber ring laser [O] . Zhao B, Tang DY, Shum P, 2004

机译：掺fiber光纤环形激光器中双脉冲孤子的无源谐波锁模
8. 23-GHz and 123-GHz Soliton Pulse Generation Using Two CW Lasers and StandardSingle-Mode Fiber [R] . Swanson, E. A., Chinn, S. R. 1994

机译：使用两个CW激光器和标准单模光纤生成23 GHz和123 GHz孤子脉冲

Copper nanowires based mode-locker for soliton nanosecond pulse generation in erbium-doped fiber laser

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