2009
DOI: 10.1364/oe.17.003941
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Bound electronic and free carrier nonlinearities in Silicon nanocrystals at 1550nm

Abstract: We present a detailed investigation of the different processes responsible for the optical nonlinearities of silicon nanocrystals at 1550 nm. Through z-scan measurements, the bound-electronic and excited carrier contributions to the nonlinear refraction were measured in presence of two-photon absorption. A study of the nonlinear response at different excitation powers has permitted to determine the change in the refractive index per unit of photo-excited carrier density sigma(r) and the value of the real bound… Show more

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Cited by 89 publications
(74 citation statements)
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“…Silicon nano-crystals in silicon dioxide and silicon nitride have also been investigated as a nonlinear material, exhibiting higher nonlinear indices than crystalline silicon by an order of magnitude or more [36][37][38][39][40][41]. The values of n 2 , β TPA , and nonlinear FOM are also highly variable, if silicon excess, annealing temperature and wavelength change.…”
Section: Methodsmentioning
confidence: 99%
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“…Silicon nano-crystals in silicon dioxide and silicon nitride have also been investigated as a nonlinear material, exhibiting higher nonlinear indices than crystalline silicon by an order of magnitude or more [36][37][38][39][40][41]. The values of n 2 , β TPA , and nonlinear FOM are also highly variable, if silicon excess, annealing temperature and wavelength change.…”
Section: Methodsmentioning
confidence: 99%
“…The values of n 2 , β TPA , and nonlinear FOM are also highly variable, if silicon excess, annealing temperature and wavelength change. We include one data point (n 2 = 4.8 × 10 -17 m 2 /W) from [38] in Figure 3. Extremely high n 2 and FOM by 3~4 orders have been obtained experimentally [41] with large silicon excess (note that the FOM in [41] is defined as the reciprocal of ours here).…”
Section: Methodsmentioning
confidence: 99%
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“…A vertical slot geometry was also demonstrated to allow the introduction of an organic polymer, and this device showed optical 160 Gb/s demultiplexing capabilities [4]; however, these materials involve non-CMOS processes and impose strict temperature limitations. On the other hand, silicon-nanocrystal-based horizontal slot waveguides only require CMOS processes, and have recently demonstrated ul-trafast all-optical modulation capabilities and good nonlinear properties [13][14][15][16]. In this paper, we study the nonlinear ultrafast dynamics of this type of waveguide, where we show that the effect of carriers is greatly reduced as compared to silicon channel waveguides.…”
Section: Introductionmentioning
confidence: 94%