Shunbin Wang scite author profile

Shunbin Wang

3Publications

50Citation Statements Received

17Citation Statements Given

How they've been cited

137

How they cite others

Affiliations

Harbin Engineering University, Jilin University, State Key Laboratory on Integrated Optoelectronics

Publications

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Tapered fluorotellurite microstructured fibers for broadband supercontinuum generation

Wang

Yao

et al. 2016

Opt. Lett.

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Fluorotellurite microstructured fibers (MFs) based on TeO2-BaF2-Y2O3 glasses are fabricated by using a rod-in-tube method. Tapered fluorotellurite MFs with varied transition region lengths are prepared by employing an elongation machine. By using a tapered fluorotellurite MF with a transition region length of ∼3.3 cm as the nonlinear medium and a 1560 nm femtosecond fiber laser as the pump source, broadband supercontinuum generation covering from 470 to 2770 nm is obtained. The effects of the transition region length of the tapered fluorotellurite MF on supercontinuum generation are also investigated. Our results show that tapered fluorotellurite MFs are promising nonlinear media for generating broadband supercontinuum light expanding from visible to mid-infrared spectral region.

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In-fiber whispering-gallery mode microsphere resonator-based integrated device

et al. 2018

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A novel in-fiber whispering-gallery mode (WGM) microsphere resonator-based integrated device is reported. It is fabricated by placing a silica microsphere into an embedded dual-core hollow fiber (EDCHF). Using a fiber tapering method, a silica microsphere can be placed and fixed in the transition section of the hollow core of the EDCHF. The transmitted light from the tapered-input single-mode fiber is coupled into the embedded silica microsphere via the two suspended fiber cores, and hence effectively excites the WGMs. A Q-factor of 5.54×10 is achieved over the wavelength range of 1100-1300 nm. The polarization and temperature dependence of the in-fiber WGM microsphere resonator device is also investigated experimentally. This integrated photonics device provides greatly improved mechanical stability, compared with the traditional tapered fiber-coupled WGM microresonator devices. Additional advantages include ease of fabrication, compact structure, and low cost. This novel in-fiber WGM resonator integrated device is ideally positioned to access a wide range of potential applications in optical sensing and microcavity lasing.

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Holmium-doped fluorotellurite microstructured fibers for 21 μm lasing

Yao

Jia

et al. 2015

Opt. Lett.

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Holmium (Ho3+)-doped fluorotellurite microstructured fibers based on TeO2-BaF2-Y2O3 glasses are fabricated by using a rod-in-tube method. By using a 1.992 μm fiber laser as the pump source, lasing at 2.077 μm is obtained from a 27 cm long Ho3+-doped fluorotellurite microstructured fiber. The maximum unsaturated power is about 161 mW and the corresponding slope efficiency is up to 67.4%. The influence of fiber length on lasing at 2.1 μm is also investigated. Our results show that Ho3+-doped fluorotellurite microstructured fibers are promising gain media for 2.1 μm laser applications.

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Shunbin Wang

Tapered fluorotellurite microstructured fibers for broadband supercontinuum generation

In-fiber whispering-gallery mode microsphere resonator-based integrated device

Holmium-doped fluorotellurite microstructured fibers for 21 μm lasing

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