Spectroscopy and 2.1 µm laser operation of Czochralski-grown Tm3+:YScO3 crystals

We report on growth, temperature-dependent spectroscopy, and laser experiments of Tm3+-doped YScO3 mixed sesquioxide crystals. For the first time, cm3-scale laser quality Tm3+:YScO3 crystals with 2.2 at.% and 3.1 at.% doping levels were grown by the Czochralski method from iridium crucibles. We reveal that the structural disorder in the mixed crystals allows for broad and smooth spectral features even at cryogenic temperatures. We obtained the first continuous wave laser operation in this material at wavelengths around 2100 nm using a laser diode emitting at 780 nm as a pump source. A maximum slope efficiency of 45% was achieved using a Tm3 + (3.1 at.%):YScO3 crystal. Our findings demonstrate the high potential of Tm3+-doped mixed sesquioxides for efficient ultrafast pulse generation in the 2.1 µm range.

Keywords

Continuous-wave laser operation, Cryogenic temperatures, Doping levels, Iridium crucible, Laser experiments, Laser operations, Mixed crystals, Spectral feature, Structural disorders, Temperature dependent

URI

https://oa.tib.eu/renate/handle/123456789/11204
http://dx.doi.org/10.34657/10240

Citation

Suzuki, A., Kalusniak, S., Tanaka, H., Brützam, M., Ganschow, S., Tokurakawa, M., & Kränkel, C. (2022). Spectroscopy and 2.1 µm laser operation of Czochralski-grown Tm3+:YScO3 crystals. 30(23). https://doi.org//10.1364/oe.475711

Collections

Physik

License

Optica Open Access Publishing Agreement

https://opg.optica.org/library/license_v2.cfm#VOR-OA

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