B. Simonditeisseire et al., YB3-TRANSFER AND RATE-EQUATIONS FORMALISM IN THE EYE-SAFE LASER MATERIAL YB-ER-CA2AL2SIO7( TO ER3+ ENERGY), Optical materials, 6(4), 1996, pp. 267-274
Rate equations formalism is used to predict the population ratio of th
e Er3+ I-4(13/2) and I-4(15/2) levels involved in the 1.55 mu m laser
transition in the Yb:Er:CAS laser materials. An effective Yb --> Er en
ergy transfer, favourable to the Er3+ 1.55 mu m laser emission, is dem
onstrated in this laser host. Indeed, the Yb --> Er transfer and the E
r --> Yb back transfer rates are calculated to be 6 x 10(-16) and 0.45
x 10(-16) cm(3) s(-1), respectively. Attempts of codoping the system
with Nd3+, Eu3+ and Ce3+ have been realised in order to increase the p
opulation of the Er3+ I-4(13/2) laser emitting level. Best results are
obtained with Ce3+ ion since in the sample containing 6 x 10(20) Ce3/cm(3), the Er3+ I-4(11/2) level lifetime is divided by a factor of 3
while the Er3+ I-4(13/2) fluorescence lifetime remains unaffected. On
the contrary, codoping with Nd3+ or Eu3+ ions simultaneously decreases
the Er3+ I-4(11/2) and I-4(13/2) kinetics parameters. The role of the
other parameters such as Yb/Er concentrations ratio is also discussed
.