Zn1-xMnxSe:Fe2+,Cr2+ (x=0.3) Laser Operation in a Region 4.4 – 4.65 μm at 78 K Pumped by a 1.94 μm Tm Fiber Laser through Cr2+ → Fe2+ Energy Transfer

Michal Jelínek; Maxim E. Doroshenko; Helena Jelínková; Adam Říha; Michal Němec; Václav Kubeček; Nazar O. Kovalenko; Andrey S. Gerasimenko

doi:10.1364/ASSL.2019.ATu4A.5

Laser Congress 2019 (ASSL, LAC, LS&C)
OSA Technical Digest (Optica Publishing Group, 2019),
paper ATu4A.5
•https://doi.org/10.1364/ASSL.2019.ATu4A.5

Zn_1-xMn_xSe:Fe²⁺,Cr²⁺ (x=0.3) Laser Operation in a Region 4.4 – 4.65 μm at 78 K Pumped by a 1.94 μm Tm Fiber Laser through Cr²⁺ → Fe²⁺ Energy Transfer

Michal Jelínek, Maxim E. Doroshenko, Helena Jelínková, Adam Říha, Michal Němec, Václav Kubeček, Nazar O. Kovalenko, and Andrey S. Gerasimenko

Advanced Solid State Lasers 2019

Vienna Austria
29 September–3 October 2019
ISBN: 978-1-943580-68-2

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Transition metal doped II-VI mid-IR materials, lasers and optics (ATu4A)

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M. Jelínek, M. E. Doroshenko, H. Jelínková, A. Říha, M. Němec, V. Kubeček, N. O. Kovalenko, and A. S. Gerasimenko, "Zn1-xMnxSe:Fe2+,Cr2+ (x=0.3) Laser Operation in a Region 4.4 – 4.65 μm at 78 K Pumped by a 1.94 μm Tm Fiber Laser through Cr2+ → Fe2+ Energy Transfer," in Laser Congress 2019 (ASSL, LAC, LS&C), OSA Technical Digest (Optica Publishing Group, 2019), paper ATu4A.5.

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Abstract

Fe²⁺ ions oscillations in the Zn_1-xMn_xSe:Fe²⁺,Cr²⁺ (x=0.3) crystal in the wavelength range of 4.4–4.65μm was achieved under pumping by a commercial 1.94 μm Tm fiber laser through Cr²⁺ → Fe²⁺ energy transfer.

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