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Publication - Journal Article

Optics Letters 38, 18, 3562-3565 (2013)
DOI: doi.org/10.1103/PhysRevE.76.050401
Link  to the article
Link to the accepted manuscript

Thermo-optical bistability with Si nanocrystals in a whispering gallery mode resonator

F. Ramiro-Manzano, N. Prtljaga, L. Pavesi, G. Pucker, and M. Ghulinyan

Abstract

We report on the observation of optical bistability in an integrated planar microresonator with embed-ded silicon nanocrystals (Si-ncs). The phenomenon originates from the thermo-optical modulation of the silica-embedded Si- ncs refractive index, which in turn alters the spectral position of the resonator mode. The estimated thermo- optical coefficient of the Si nanocrystalline material, dn/dT ≈ 2.92 × 10−5 K−1, is an order of magnitude lower than that of bulk silicon. Both time-resolved pump-and-probe experiments and numerical simulations confirm that the silica host is responsible for the heat dissipation from the resonator. Moreover, negligible Q-factor degradation at pump powers as high as 100 mW along with the absence of a fast component in time resolved measurements confirm the negligible contribution from excited carriers effects. These observations, combined with the already published large third-order nonlinearities of Si-ncs (an order of magnitude larger than in bulk Si), make this system an outstanding candidate for low-power on-chip nonlinear comb generation. © 2023 Optical Society of America.


Notes

The accepted manuscript includes hysteresis curves, time-resolved experiments and simulations, along with explanatory text.

Image

The following image is similar to the one of the accepted manuscript.
Optical instability or nonlinear hysteresis of silicon nanocrystals

License/Copyright

Reproduced from Ref. Optics Letters 38, 18, 3562-3565 (2013)   with permission from Optica (fromer OSA)
Fernando Ramiro Manzano, PhD 
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ferraman(at)fis.upv.es
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