Abstract
We present a finite element based model for Si-nc sensitized ${\hbox {Er}}^{3+}$ doped waveguide amplifiers (EDWA), longitudinally pumped by a
novel pumping scheme using broad-area visible lasers, which accurately
describes the effect of the Si-nc to ${\hbox {Er}}^{3+}$ coupling ratio on the amplifier performance.We show that by pumping the active material resonantly with the ${\hbox {Er}}^{3+}$ absorption spectrum, the Si-nc sensitization is extremely
beneficial even at relatively low fractions of ${\hbox {Er}}^{3+}$ ions coupled to the nanoclusters. On the other hand, when the
pump light is only directly absorbed by the Si-nc, more than 80% of the ${\hbox {Er}}^{3+}$ ions should be coupled to the Si-nc in order to achieve
significant net gain.In particular, numerical results based on realistic material parameters,
point out that resonant multimode pumping at 660 nm provides significant
benefits in terms of gain enhancement, with respect to standard EDWAs, even
at low fractions of ${\hbox {Er}}^{3+}$ ions coupled to the Si-nc (less than 50%).This feature suggests that further material optimization could lead to the
realization of compact and cost-effective integrated amplifiers and
lasers.
© 2009 IEEE
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