Steady photodarkening of thulium alumino-silicate fibers pumped at 1.07&#x2009;&#x2009;&#x03BC;m: quantitative effect of lanthanum, cerium, and thulium

Jean-François Lupi; Manuel Vermillac; Wilfried Blanc; Franck Mady; Mourad Benabdesselam; Bernard Dussardier; Daniel R. Neuville

doi:10.1364/OL.41.002771

Optics Letters
Vol. 41,
Issue 12,
pp. 2771-2774
(2016)
•https://doi.org/10.1364/OL.41.002771

Steady photodarkening of thulium alumino-silicate fibers pumped at 1.07 μm: quantitative effect of lanthanum, cerium, and thulium

Jean-François Lupi, Manuel Vermillac, Wilfried Blanc, Franck Mady, Mourad Benabdesselam, Bernard Dussardier, and Daniel R. Neuville

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Jean-François Lupi, Manuel Vermillac, Wilfried Blanc, Franck Mady, Mourad Benabdesselam, Bernard Dussardier, and Daniel R. Neuville, "Steady photodarkening of thulium alumino-silicate fibers pumped at 1.07 μm: quantitative effect of lanthanum, cerium, and thulium," Opt. Lett. 41, 2771-2774 (2016)

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Abstract

By pumping thulium-doped silica-based fibers at 1.07 μm, rapid generation of absorbing centers leads to photoinduced attenuation (PIA). This detrimental effect prevents exploiting laser emissions in the visible and near infrared. We report on the characterization of the PIA versus the fiber core composition, particularly the concentration of thulium (Tm), lanthanum (La), and cerium (Ce) ions. We show that UV emission induced by Tm-Tm energy transfers is the source of photodarkening and that lanthanum and cerium are efficient hardeners against PIA.

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Series	Tm	La	Ce	Al
“Tm”	0–600	–	–	$\sim 8000$
“La”	$190 \pm 30$	0–7000	–	$\sim 8000$
“Ce”	$260 \pm 40$	–	0–1300	$\sim 8000$

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