Numéro
J. Phys. IV France
Volume 01, Numéro C7, Décembre 1991
2nd International Conference
Laser M2P
Page(s) C7-423 - C7-423
DOI http://dx.doi.org/10.1051/jp4:19917111
2nd International Conference
Laser M2P

J. Phys. IV France 01 (1991) C7-423-C7-423

DOI: 10.1051/jp4:19917111

RADIATIVE ENERGY TRANSFER AND "NON-NATURAL" EXCITATION IN THE QUANTUM EFFICIENCY DETERMINATION OF 1.55 µm Er3+ EMISSION IN SILICA FIBERS

F. AUZEL and D. MEICHENIN

CNET, Laboratoire de Bagneux, 196 av. H. Ravera, F-92220 Bagneux, France


Abstract
One of the most usual way to determine quantum efficiency of Rare Earth ions in solids is to compute the radiative lifetime (τo) of the considered level through Judd's theory and to measure the emission decay time (τ) ; the ratio τ/τo being the desired quantum efficiency. By such way the quantum efficiency of Er3+ at 1.55 µm in silica fibers is estimated to be 100% [1]. However a number of pitfalls can be encountered [2] in such determination, namely radiative energy transfer and "non-natural" excitation linked with crystal field splittings. The purpose of this paper is to show that, taking such effects into account, Er3+ efficiency at 1.55 µm is found to be much less in silica fiber than usually accepted. We show that quantum efficiency of Er3+ in silica fibers should range between 30 to 45% instead of the 100% usually believed.



© EDP Sciences 1991