Flavien Gyger scite author profile

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 been reported. Here we observe, for the first time, backward SBS in fully cladded Si3N4 waveguides. The Brillouin gain spectrum exhibits an unusual multi-peak structure resulting from hybridization with high-overtone bulk acoustic resonances (HBARs) of the silica cladding. The reported intrinsic Si3N4 Brillouin gain at 25 GHz is estimated as 7×10 −13 m/W. Moreover, the magnitude of the Si3N4 photoelastic constant is estimated as |p12| = 0.047 ± 0.004. 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. arXiv:1908.09815v1 [physics.optics]

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Intense Brillouin amplification in gas using hollow-core waveguides

Yang

Gyger

Thévenaz

2020

Nat. Photonics

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Among all the nonlinear effects stimulated Brillouin scattering offers the highest gain in solid materials and has demonstrated advanced photonics functionalities in waveguides. The large compressibility of gases suggests that stimulated Brillouin scattering may gain in efficiency with respect to condensed materials. Here, by using a gas-filled hollow-core fibre at high pressure, we achieve a strong Brillouin amplification per unit length, exceeding by six times the gain observed in fibres with a solid silica core. This large amplification benefits from a higher molecular density and a lower acoustic attenuation at higher pressure, combined with a tight light confinement. Using this approach, we demonstrate the capability to perform large optical amplifications in hollow-core waveguides. The implementations of a low-threshold gas Brillouin fibre laser and a high-performance distributed temperature sensor, intrinsically free of strain cross-sensitivity, illustrate the potential for hollow-core fibres, paving the way to their integration into lasing, sensing and signal processing.

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Extending the sensing range of Brillouin optical time-domain analysis up to 325 km combining four optical repeaters

Gyger¹,

Rochat²,

Chin³

et al. 2014

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A novel scheme is proposed to extend the sensing range of Brillouin optical time-domain analyzers (BOTDA). Specially-designed erbium doped fiber amplifier (EDFA) repeaters are located every 65km fiber along the sensing cable to achieve a total sensing length of 325km, corresponding to a 650km loop. At the end of the sensing fibre, we experimentally demonstrated a measurement repeatability of 2°C (2 ) using a three meters spatial resolution.

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High Signal-to-Noise Ratio Stimulated Brillouin Scattering Gain Spectrum Measurement

Gyger

Yang

Soto

et al. 2018

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Distributed fiber temperature alarm system based on thermodynamic phase transition

Zhang

Yang

Gyger

et al. 2021

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Flavien Gyger

Observation of Stimulated Brillouin Scattering in Silicon Nitride Integrated Waveguides

Intense Brillouin amplification in gas using hollow-core waveguides

Extending the sensing range of Brillouin optical time-domain analysis up to 325 km combining four optical repeaters

High Signal-to-Noise Ratio Stimulated Brillouin Scattering Gain Spectrum Measurement

Distributed fiber temperature alarm system based on thermodynamic phase transition

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