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Effect of Tm3+ concentration on the emission wavelength shift in Tm3+-doped silica microsphere lasers

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posted on 2020-06-16, 13:31 authored by Angzhen Li, Jiquan Zhang, Meng Zhang, Wenhao Li, Shunbin Wang, Elfed LewisElfed Lewis, Gilberto Brambilla, Pengfei Wang
In this work, a Tm3+-doped solgel silica microsphere lasing at 2.0 mu m is reported. Microspheres with different Tm3+ concentrations are fabricated by overlaying different Tm3+ concentration solgel solutions on the surface of a pure silica microsphere resonator and then annealing the sample with a CO2 laser. Based on a traditional fiber taper-microsphere coupling method, single and multimode microsphere lasing in the wavelength range 1.8-2.0 mu m is observed if an 808 nm laser diode is used as a pump source. A relatively low threshold pumping power of 1.2 mW is achieved using this arrangement. This solgel method allows for an easy varying of the Tm3+ doping concentration. The observed laser output shifts to longer wavelengths when the Tm3+ doping concentration increases. This has been explained by the larger Tm absorption at shorter wavelengths. The ability to fabricate solgel co-doped silica glass microlasers represents a new generation of low threshold and compact infrared laser sources for use as miniaturized photonic components for a wide range of applications, including gas sensing and medical surgery. (c) 2018 Optical Society of America.

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Tensor network algorithms for two-dimensional strongly correlated lattice systems

Deutsche Forschungsgemeinschaft

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Publication

Optics Letters;43, pp. 4325-4328

Publisher

Optical Society of America

Note

peer-reviewed

Other Funding information

National Natural Science Foundation of China, Natural Science Foundation of Heilongjiang, Harbin Engineering University

Rights

This paper was published in Optics Letters and is made available as an electronic reprint with the permission of OSA. The paper can be found at the following URL http://dx.doi.org/10.1364/OL.43.004325 on the OSA website:Systematic or multiple reproduction or distribution to multiple locations via electronic or other means is prohibited and is subject to penalties under law.

Language

English

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