Jean‐Marc Blondy scite author profile

We show that high efficiency stimulated Raman scattering can be obtained using hollow core photonic crystal fiber with the core filled with a low refractive index nonlinear liquid. This new architecture opens new perspectives in the development of nonlinear functions as any kind of nonlinear liquid media can now be used to implement them, with original properties not accessible with silica core fibers.

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Low-loss singlemode large mode area all-silica photonic bandgap fiber

Fevrier¹,

Jamier²,

Blondy³

et al. 2006

Opt. Express

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We describe the design and characterization of solid core large mode area bandgap fibers exhibiting low propagation loss and low bend loss. The fibers have been prepared by modified chemical vapor deposition process. The bandgap guidance obtained thanks to a 3-bilayer periodic cladding is assisted by a very slight index step (5.10-4) in the solid core. The propagation loss reaches a few dB/km and is found to be close to material loss.

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Conception, Realization, and Characterization of a Very High Negative Chromatic Dispersion Fiber

Auguste

Blondy

Maury

et al. 2002

Optical Fiber Technology

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Design of dispersion-compensating fibers based on a dual-concentric-core photonic crystal fiber

2004

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A photonic crystal fiber based on a particular periodic arrangement of airholes and pure silica is designed for chromatic dispersion compensation. A two-concentric-core structure is obtained by introducing two different sizes of capillaries (for the airholes) and exhibits very high negative chromatic dispersion [-2200 ps/(nm km) at 1550 nm]. The variation of optogeometric parameters is also investigated to evaluate the tolerance of the fabrication. Finally, the bending influence on the modal characteristics shows that it is possible to tune the phase-matching wavelength over the C band by adjusting the diameter of the fiber.

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Jean‐Marc Blondy

Stimulated Raman scattering in an ethanol core microstructured optical fiber

Low-loss singlemode large mode area all-silica photonic bandgap fiber

Conception, Realization, and Characterization of a Very High Negative Chromatic Dispersion Fiber

Design of dispersion-compensating fibers based on a dual-concentric-core photonic crystal fiber

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