Experimental photoluminescence and lifetimes at wavelengths including beyond 7 microns in Sm3+-doped selenide-chalcogenide glass fibers

Richard W Crane; Łukasz Sójka; David Furniss; Joel Nunes; Emma Barney; Mark C Farries; Trevor M Benson; Slawomir Sujecki; Angela B Seddon

doi:10.1364/OE.383033

Experimental photoluminescence and lifetimes at wavelengths including beyond 7 microns in Sm³⁺-doped selenide-chalcogenide glass fibers

Opt Express. 2020 Apr 13;28(8):12373-12384. doi: 10.1364/OE.383033.

Authors

Richard W Crane, Łukasz Sójka, David Furniss, Joel Nunes, Emma Barney, Mark C Farries, Trevor M Benson, Slawomir Sujecki, Angela B Seddon

PMID: 32403735
DOI: 10.1364/OE.383033

Abstract

1000 ppmw Sm³⁺-doped Ge_19.4Sb_9.7Se_67.9Ga₃ atomic % chalcogenide bulk glass and unstructured fiber are prepared. Near- and mid-infrared absorption spectra of the bulk glass reveal Sm³⁺ electronic absorption bands, and extrinsic vibrational absorption bands, due to host impurities. Fiber photoluminescence, centred at 3.75 µm and 7.25 µm, is measured when pumping at either 1300 or 1470 nm. Pumping at 1470 nm enables the photoluminescent lifetime at 7.3 µm to be measured for the first time which was ∼100 µs. This is the longest to date, experimentally observed lifetime in the 6.5-9 µm wavelength-range of a lanthanide-doped chalcogenide glass fiber.