Yg. Choi et al., 1.6 mu m emission from Pr3+:(F-3(3),F-3(4))-> H-3(4) transition in Pr3+- and Pr3+/Er3+-doped selenide glasses, APPL PHYS L, 78(9), 2001, pp. 1249-1251
1.6 mum emission originated from Pr3+: (F-3(3),F-3(4))--> H-3(4) transition
in Pr3+- and Pr3+/Er3+-doped selenide glasses were investigated under an o
ptical pump of a conventional 1480 nm laser diode. The measured peak wavele
ngth and full width at half maximum of the fluorescent emission were simila
r to 1650 and > 100 nm, respectively. A moderate lifetime of the thermally
coupled upper manifolds (similar to 212 +/-5 mus) together with a high stim
ulated emission cross section of similar to (3 +/-1)x10(-20) cm(2) promises
to be useful for 1.6 mum band fiber-optic amplifier that can be pumped wit
h an existing high-power laser diode. Codoping of Er3+ significantly enhanc
ed the emission intensity by way of a nonradiative Er3+: I-4(13/2)--> Pr3+:
(F-3(3),F-3(4)) energy transfer. (C) 2001 American Institute of Physics.