Mo0.5W0.5S2for Q-switched pulse generation in ytterbium-doped fiber laser

Wang, Junli; Lei, Chen; Dou, Chenxi; Yan, Haiting; Meng, Lingjie; Wei, Zhiyi

doi:10.1088/1361-6528/aab5f2

Cited by 13 publications

(5 citation statements)

References 37 publications

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“…A higher pulse energy of 339 nJ and pulse width of 1.46 µs and a higher pulse energy of 339 nJ and pulse width of 1.46 µs were also obtained with the fibre-taper Mo 0.5 W 0.5 S 2 SA. In addition, they compared Mo 0.5 W 0.5 S 2 SA with MoS 2 and WS 2 SA, and Mo 0.5 W 0.5 S 2 SA had a narrower pulse width and was superior in terms of single-pulse energy [13]. Ahmad et al were able to generate stable Q-switched pulses in the 1.0 µm, 1.5 µm, and 2 µm regions using MoWSe 2 alloy as an all-fibre passively Q-switched Yb-, Er-, and Tm-doped fibre laser.…”

Section: Lasersmentioning

confidence: 99%

“…These attributes either remain absent in the original TMD materials or exhibit an elevated degree of excellence [1][2][3][4][5]. Their vibrational modes and photoluminescence peaks are affected by the alloying engineering, and this attribute provides a new direction for the application of 2D TMDs alloy materials in hydrogen evolution reaction (HER) [6][7][8], field-effect transistors (FET) [9,10], lithium-sulphur battery catalysis [11,12], and lasers [13,14]. As the exploration of alloyed 2D TMD materials advances, its role in substantiating prospective strides in multifunctional materials for ensuing generation technologies becomes a discernible projection.…”

Section: Introductionmentioning

confidence: 99%

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Progress on Two-Dimensional Transitional Metal Dichalcogenides Alloy Materials: Growth, Characterisation, and Optoelectronic Applications

Yu,

Wu,

Zhao

et al. 2023

Nanomaterials

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Two-dimensional (2D) transitional metal dichalcogenides (TMDs) have garnered remarkable attention in electronics, optoelectronics, and hydrogen precipitation catalysis due to their exceptional physicochemical properties. Their utilisation in optoelectronic devices is especially notable for overcoming graphene’s zero-band gap limitation. Moreover, TMDs offer advantages such as direct band gap transitions, high carrier mobility, and efficient switching ratios. Achieving precise adjustments to the electronic properties and band gap of 2D semiconductor materials is crucial for enhancing their capabilities. Researchers have explored the creation of 2D alloy phases through heteroatom doping, a strategy employed to fine-tune the band structure of these materials. Current research on 2D alloy materials encompasses diverse aspects like synthesis methods, catalytic reactions, energy band modulation, high-voltage phase transitions, and potential applications in electronics and optoelectronics. This paper comprehensively analyses 2D TMD alloy materials, covering their growth, preparation, optoelectronic properties, and various applications including hydrogen evolution reaction catalysis, field-effect transistors, lithium-sulphur battery catalysts, and lasers. The growth process and characterisation techniques are introduced, followed by a summary of the optoelectronic properties of these materials.

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Section: Lasersmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Progress on Two-Dimensional Transitional Metal Dichalcogenides Alloy Materials: Growth, Characterisation, and Optoelectronic Applications

Yu,

Wu,

Zhao

et al. 2023

Nanomaterials

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“…SA incorporation methods: (a) sandwiching SA between two connectors, (b) depositing SAs on tapered fiber, (c) coating SAs on side-polished fiber, and (d) filling SA into hollow photonic crystal fibers (PCFs). (a)[131], (b)[128], (c)[129], (d)[132].…”

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confidence: 99%

Recent advances in mode-locked fiber lasers based on two-dimensional materials

Wang

Lei

et al. 2020

Nanophotonics

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Abstract Due to the unique properties of two-dimensional (2D) materials, much attention has been paid to the exploration and application of 2D materials. In this review, we focus on the application of 2D materials in mode-locked fiber lasers. We summarize the synthesis methods for 2D materials, fiber integration with 2D materials and 2D materials based saturable absorbers. We discuss the performance of the diverse mode-locked fiber lasers in the typical operating wavelength such as 1, 1.5, 2 and 3 μm. Finally, a summary and outlook of the further applications of the new materials in mode-locked fiber lasers are presented.

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“…Recently, ternary alloy materials have provided a simple and accurate method to customize the bandgap structure of TMDs, turning them into excellent broadband SAs. 14,15) Their particular optical properties have generated many research ideas. The band gap of ternary TMDs alloy materials can not only be controlled by the number of layers but can also be adjusted by tuning the concentration of the metallic element (M x M′ 1−x X 2 ) or the chalcogen element (MX′ 2x X 2(1−x) ).…”

mentioning

confidence: 99%

“…Recently, Wang et al demonstrated the nonlinear SA properties of an Mo 0.5 W 0.5 Se 2 alloy and its application to Tmdoped fiber lasers. 15) In 2019, Zhang et al demonstrated that the modulation depth of the ternary alloy ReS 1.02 Se 0.98 is as high as 39.9% at 2 μm, which is much higher than ReSe 2 (7.3%) and ReS 2 (3.9%), and it is used as a SA to the generation of ultrafast lasers by passively mode-locked technology at 2 μm. 11,21,22) These works have the significance to promote the application of ternary alloy materials in pulsed lasers as SAs.…”

mentioning

confidence: 99%

Nonlinear optical properties and Q-switched laser application of a novel Mo_0.5Re_0.5S₂ ternary alloy material at 2 μm

Wang

Zhang

et al. 2020

Appl. Phys. Express

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In this study, a novel ternary alloy using Mo 0.5 Re 0.5 S 2 as a saturable absorber (SA) is prepared by liquid phase exfoliation method and successfully applied to a passively Q-switched Tm:YAlO 3 (Tm:YAP) bulk laser for the first time. The nonlinear SA effect of the prepared Mo 0.5 Re 0.5 S 2 SA at 2 μm is characterized using the open-aperture Z-scan technique and results in a saturable intensity of 5.62 μJ cm −2 and modulation depth of 7.92%. Using Mo 0.5 Re 0.5 S 2 as an SA, a 2 μm Q-switched Tm:YAP laser is realized, generating a maximum output power of 0.957 W with a shortest pulse width of 857.5 ns and a maximum repetition rate of 95 kHz. The corresponding single pulse energy and peak power are 10.1 μJ and 11.5 W, respectively. These achievements indicate that Mo 0.5 Re 0.5 S 2 could be an excellent and reliable SA for mid-infrared laser applications, and ternary transition metal disulfide alloys will bring new application opportunities to optoelectronic devices in the future.

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Mo_0.5W_0.5S₂for Q-switched pulse generation in ytterbium-doped fiber laser

Cited by 13 publications

References 37 publications

Progress on Two-Dimensional Transitional Metal Dichalcogenides Alloy Materials: Growth, Characterisation, and Optoelectronic Applications

Progress on Two-Dimensional Transitional Metal Dichalcogenides Alloy Materials: Growth, Characterisation, and Optoelectronic Applications

Recent advances in mode-locked fiber lasers based on two-dimensional materials

Nonlinear optical properties and Q-switched laser application of a novel Mo_0.5Re_0.5S₂ ternary alloy material at 2 μm

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Mo0.5W0.5S2for Q-switched pulse generation in ytterbium-doped fiber laser

Cited by 13 publications

References 37 publications

Progress on Two-Dimensional Transitional Metal Dichalcogenides Alloy Materials: Growth, Characterisation, and Optoelectronic Applications

Progress on Two-Dimensional Transitional Metal Dichalcogenides Alloy Materials: Growth, Characterisation, and Optoelectronic Applications

Recent advances in mode-locked fiber lasers based on two-dimensional materials

Nonlinear optical properties and Q-switched laser application of a novel Mo0.5Re0.5S2 ternary alloy material at 2 μm

Contact Info

Product

Resources

About

Mo_0.5W_0.5S₂for Q-switched pulse generation in ytterbium-doped fiber laser

Nonlinear optical properties and Q-switched laser application of a novel Mo_0.5Re_0.5S₂ ternary alloy material at 2 μm