Observation of Stimulated Brillouin Scattering in Silicon Nitride Integrated Waveguides

Flavien Gyger, Jijun He, Tobias Kippenberg, Junqiu Liu, Arslan Sajid Raja, Luc Thévenaz, Rui Ning Wang, Fan Yang
2020
Article

Résumé

Silicon nitride (Si3N4) has emerged as a promising material for integrated nonlinear photonics and has been used for broadband soliton microcombs and low-pulse-energy supercontinuum generation. Therefore, understanding all nonlinear optical properties of Si3N4 is important. So far, only stimulated Brillouin scattering (SBS) has not yet been reported. Here we observe, for the first time, backward SBS in fully cladded Si3N4 waveguides. The Brillouin gain spectrum exhibits an unusual multipeak structure resulting from hybridization with high-overtone bulk acoustic resonances of the silica cladding. The reported intrinsic Si3N4 Brillouin gain at 25 GHz is estimated as 4×10−13 m/W. Moreover, the magnitude of the Si3N4 photoelastic constant is estimated as |p12|=0.047±0.004, which is nearly 6 times smaller than for silica. Since SBS imposes an optical power limitation for waveguides, our results explain the capability of Si3N4 to handle high optical power, central for integrated nonlinear photonics.

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https://infoscience.epfl.ch/record/273536?ln=fr

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Flavien Gyger, Jijun He, Tobias Kippenberg, Junqiu Liu, Arslan Sajid Raja, Luc Thévenaz, Rui Ning Wang, Fan Yang
2020
Article

Résumé

Official source

https://infoscience.epfl.ch/record/273536?ln=fr

À propos de ce résultat

Concepts associés (10)

La 'diffusion Brillouin' est la diffusion inélastique de la lumière par les ondes acoustiques d'un milieu. Dans une expérience de diffusion Brillouin, on illumine un milieu à l'aide d'un faisceau las

A waveguide is a structure that guides waves, such as sound (acoustic waveguide), light (optical waveguide), radio waves (radio-frequency waveguide) or other electromagnetic waves, with minimal los

La diffusion Rayleigh est un mode de diffusion des ondes, par exemple électromagnétiques ou sonores. Elle opère lorsque la longueur d'onde est beaucoup plus grande que la taille des particules diffusa

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Formation Rules and Dynamics of Photoinduced χ(2) Gratings in Silicon Nitride Waveguides

Camille Sophie Brès, Davide Grassani, Tobias Kippenberg, Tianyi Liu, Edgars Nitiss, Martin Hubert Peter Pfeiffer

Silicon nitride has emerged as a prominent platform for building photonics integrated circuits. While its nonlinear properties based on third-order effects have been successfully exploited, an efficient second harmonic generation in standard stoichiometric silicon nitride (Si3N4) waveguides can also be achieved after all-optical poling, as was recently shown. The root of such a phenomenon has been attributed to the inscription of a self-organized periodic space-charge grating along the waveguide, allowing an effective χ(2) and automatic quasi-phase-matching of pump and second harmonic. However, the different parameters and their role in increasing the efficiency of the process are still not fully comprehended. In this work, we use optical means to identify the general conditions of mode matching occurring during all-optical poling. The overlap integral between pump and second harmonic optical modes is shown to be the governing parameter in determining the features of the χ(2) gratings. Two-photon microscopy measurements of the χ(2) gratings reveal the presence of a secondary periodicity in some of the waveguides used in the study. According to overlap integral simulations, such an effect can occur due to mode mixing in the waveguide bends. From a study of poling dynamics, we observe that poling efficiency and rate increase as a function of optical pump power and waveguide length. However, in order to initiate poling, a critical pump intensity, which is lower for longer waveguides, must be coupled into a waveguide. Temporal and thermal stability tests reveal the nature of charge traps responsible for grating inscription. After applying thermally activated hopping as a conductivity mechanism in our samples, we show that only shallow traps seem to be activated during the all-optical poling process.

2019

Chargement

Broadband quasi-phase-matching in dispersion-engineered all-optically poled silicon nitride waveguides

Camille Sophie Brès, Tobias Kippenberg, Junqiu Liu, Edgars Nitiss, Rui Ning Wang, Ozan Yakar, Boris Zabelich

Quasi-phase-matching (QPM) has become one of the most common approaches for increasing the efficiency of nonlinear three-wave mixing processes in integrated photonic circuits. Here, we provide a study of dispersion engineering of QPM second-harmonic (SH) generation in stoichiometric silicon nitride (Si3N4) waveguides. We apply waveguide design and lithographic control in combination with the all-optical poling technique to study the QPM properties and shape the waveguide dispersion for broadband spectral conversion efficiency inside Si3N4 waveguides. By meeting the requirements for maximal bandwidth of the conversion efficiency spectrum, we demonstrate that group-velocity matching of the pump and SH is simultaneously satisfied, resulting in efficient SH generation from ultrashort optical pulses. The latter is employed for retrieving a carrier-envelope-offset frequency of a frequency comb by using an f - 2f interferometric technique, where supercontinuum and SH of a femtosecond pulse are generated in Si3N4 waveguides. Finally, we show that the waveguide dispersion determines the QPM wavelength variation magnitude and sign due to the thermo-optic effect. (C) 2020 Chinese Laser Press

2020

Chargement

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All-optical poling leads to an effective second-order nonlinearity (chi((2))) in centrosymmetric materials without the need for sophisticated fabrication techniques or material processing, through the periodic self-organization of the charges. The absence of the inherent chi((2)) in prevailing silicon-based platforms can be surmounted through all-optical poling. Using the induced effective chi((2)) in silicon nitride (Si3N4) waveguides, nonlinear frequency up-conversion processes, such as second-harmonic generation, were previously demonstrated on Si3N4. Here, we report near- and non-degenerate difference-frequency generation in all-optically poled Si3N4 waveguides. We show the agreement between the theory and the measurements and optimize achievable QPM bandwidth range, reaching conversion efficiency of 1 %/W.

SPIE-INT SOC OPTICAL ENGINEERING2021

Chargement

Formation Rules and Dynamics of Photoinduced χ(2) Gratings in Silicon Nitride Waveguides

Camille Sophie Brès, Davide Grassani, Tobias Kippenberg, Tianyi Liu, Edgars Nitiss, Martin Hubert Peter Pfeiffer

2019