Abstract
Development of new solid-state mid-infrared (mid-IR) laser sources for wide range of applications in remote sensing, free-space communications, materials processing, and medicine remains to be a challenge, and demands advanced laser material development. RE3+ ions possess promising emission transitions in the mid-IR spectral region but require host materials with low maximum phonon energies to circumvent competing nonradiative multi-phonon relaxation (MPR), thus preserving high efficiency of mid-IR emission [1].
© 2023 IEEE
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