Materials and devices.for compact optical amplification in Si photonics is reviewed. In particular, as the requirement for
high gain per length together with high refractive index renders traditional oxide-based approach problematic, Er-doping
of silicon-rich silicon nitride and erbium silicate nanocrystals are proposed and shown to be promising alternatives.
Using such new materials, microdisk resonators and slot waveguides that concentrate the light in a compact volume for
high functionality are fabricated and characterized.
We report on fabricating ErxY2-xSiO5 nanocrystals using ErCl3•6H2O and YCl3•6H2O solutions and Si nanowires grown
by VSL method. Use of crystalline host allows incorporation of up to 25 at % Er without clustering and loss of optical
activity, and use of Y enables continuous mixing of Er and Y for controlling cooperative upconversion. We obtain a
cooperative upconversion coefficients of (2.2±1.1)×10-18 cm3/s and (5.4±2.7)×10-18 cm3/s at an Er concentration of
1.2×1021 cm-3 and 2.0×1021 cm-3, respectively. These values are up to 10 times lower at 10 times higher Er concentration
than those reported for Er-doped silica, and shows that up to 69 dB/cm gain could be achieved for ultra-compact optical
amplification. Also, we report on the deposition of ErxY2-xSiO5 thin film on Si substrate using ion beam sputter
deposition. Rapid thermal annealing at 1100°C is enough to form crystal phase the film and activate most of Er3+ ions.