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Literature DB >> 21165115

Watt-level ~2 μm laser output in Tm3+-doped tungsten tellurite glass double-cladding fiber.

Abstract

We report, for the first time to the best of our knowledge, a watt level cw fiber laser at ~2 μm from a piece of 40-cm-long newly developed highly thulium-doped (3.76 × 10(20) ions/cm(3)) tungsten tellurite glass double cladding fiber pumped by a commercial 800 nm laser diode. The maximum output power of the fiber laser reaches 1.12 W. The slope efficiency and the optical-optical efficiency with respect to the absorbed pump are 20% and 16%, respectively. The lasing threshold is 1.46 W, and the lasing wavelength is centered at 1937 nm.

Entities: Chemical

Year: 2010 PMID： 21165115 DOI： 10.1364/OL.35.004136

Source DB: PubMed Journal: Opt Lett ISSN： 0146-9592 Impact factor: 3.776

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Cited

5 in total

Watt-level ~2 μm laser output in Tm3+-doped tungsten tellurite glass double-cladding fiber.

1. 2 μm emission properties and nonresonant energy transfer of Er³⁺ and Ho³⁺ codoped silicate glasses.

2. Spectroscopic properties in Er³⁺-doped germanotellurite glasses and glass ceramics for mid-infrared laser materials.

3. Highly Tm(3+) doped germanate glass and its single mode fiber for 2.0 μm laser.

4. 2.8 μm emission and OH quenching analysis in Ho³⁺ doped fluorotellurite-germanate glasses sensitized by Yb³⁺ and Er³.

5. Dual-band Tm³⁺-doped tellurite fiber amplifier and laser at 1.9 μm and 2.3 μm.

Watt-level ~2 μm laser output in Tm3+-doped tungsten tellurite glass double-cladding fiber.

1. 2 μm emission properties and nonresonant energy transfer of Er3+ and Ho3+ codoped silicate glasses.

2. Spectroscopic properties in Er3+-doped germanotellurite glasses and glass ceramics for mid-infrared laser materials.

3. Highly Tm(3+) doped germanate glass and its single mode fiber for 2.0 μm laser.

4. 2.8 μm emission and OH quenching analysis in Ho3+ doped fluorotellurite-germanate glasses sensitized by Yb3+ and Er3.

5. Dual-band Tm3+-doped tellurite fiber amplifier and laser at 1.9 μm and 2.3 μm.

1. 2 μm emission properties and nonresonant energy transfer of Er³⁺ and Ho³⁺ codoped silicate glasses.

2. Spectroscopic properties in Er³⁺-doped germanotellurite glasses and glass ceramics for mid-infrared laser materials.

4. 2.8 μm emission and OH quenching analysis in Ho³⁺ doped fluorotellurite-germanate glasses sensitized by Yb³⁺ and Er³.

5. Dual-band Tm³⁺-doped tellurite fiber amplifier and laser at 1.9 μm and 2.3 μm.