N Li scite author profile

We demonstrated a passively mode-locked fiber laser operating at 1982 nm by using a gold nanorods (GNRs) saturable absorber (SA). The GNRs SA was fabricated by mixing GNRs with sodium carbonxymethyl cellulose. By inserting the GNRs SA into a Tm-doped fiber laser cavity pumped by a 1570 nm fiber laser, stable passively mode-locking was achieved with a threshold pump power of 224 mW, ~4.02 ps pulses at 1982 nm with a repetition rate of ~37.49 MHz, and a maximum average power of ~6 mW was obtained for a pump power of ~265 mW.

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All-fiber widely tunable mode-locked thulium-doped laser using a curvature multimode interference filter

Liu

Gao

et al. 2016

Laser Phys. Lett.

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We demonstrated a widely tunable mode-locked thulium doped fiber laser (TDFL) by using a homemade multimode interference filter (MMIF). The MMIF had a structure of single mode fiber (SMF)—multimode fiber (MMF)—SMF and three main transmission peaks at 1901.2, 1957.2 and 2043.2 nm. By mechanically bending the MMIF, the three main transmission peaks were tuned in the range of 1860–2024 nm due to multimode interference effect. By inserting the MMIF into a passively mode-locked TDFL cavity pumped by a 1570 nm fiber laser, a tunable mode-locked TDFL with a tuning range of 1919.6–2014.9 nm was achieved by adjusting the MMIF. To the best of our knowledge, such a tunable range is the largest among all-fiber tunable mode-locked TDFLs.

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Fe₃O₄nanoparticles as the saturable absorber for a mode-locked fiber laser at 1558 nm

Jia

Liu

et al. 2019

Laser Phys. Lett.

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We demonstrated a mode-locked erbium doped fiber laser (EDFL) operating at 1558 nm by exploiting ferroferric-oxide nanoparticles (FONPs) as the saturable absorber (SA) material. FONPs, with an average diameter of ~20 nm, were prepared by a thermal decomposition method, then mixed with sodium carboxymethylcelluose to form an FONP film. The FONP SA was fabricated through a sandwiched FONP film between two fiber connectors. By inserting the FONPs SA into an EDFL cavity pumped by a 980 nm laser diode, stable passive mode-locking was achieved with a threshold pump power of ~120 mW. The obtained modelocked laser had a central wavelength of ~1558 nm, a spectral bandwidth of ~0.8 nm, a pulse width of ~4.35 ns, and a repetition rate of ~37.32 MHz. Furthermore, a maximum average power of ~17 mW was obtained for a pump power of 340 mW. To the best of our knowledge, this is the first time that it has been demonstrated that FONPs can be used for constructing mode-locked fiber lasers.

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N Li

Mode-locked thulium-doped fiber laser at 1982 nm by using a gold nanorods saturable absorber

All-fiber widely tunable mode-locked thulium-doped laser using a curvature multimode interference filter

Fe₃O₄nanoparticles as the saturable absorber for a mode-locked fiber laser at 1558 nm

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N Li

Mode-locked thulium-doped fiber laser at 1982 nm by using a gold nanorods saturable absorber

All-fiber widely tunable mode-locked thulium-doped laser using a curvature multimode interference filter

Fe3O4nanoparticles as the saturable absorber for a mode-locked fiber laser at 1558 nm

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Fe₃O₄nanoparticles as the saturable absorber for a mode-locked fiber laser at 1558 nm