V. Berdejo scite author profile

A 16.5 mm long, heavily doped erbium-ytterbium phosphate glass-waveguide amplifier was fabricated by the femtosecond laser (fs-laser) inscription technique. The femtosecond laser inscription of waveguides was carried out at 500 kHz repetition rate using a 0.68 NA aspheric lens. The energy deposition profile in the dielectric material was initially simulated using a generalized adaptive fast-Fourier evolver (GAFFE) algorithm. The size and shape of the guiding structures were carefully controlled by the slit shaping technique to reduce the coupling losses, with achievable values down to less than 0.1 dB. Rigorous simulations of the response of the active waveguides were carried out to optimize their performance as optical amplifiers. A maximum of 8.6 dB internal gain at 1534 nm was obtained upon bidirectional laser pumping at 976 nm, leading to a gain per unit length of 5.2 dB cm −1 . Laser action was also achieved for both ring and linear cavity configurations.

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In situ assessment and minimization of nonlinear propagation effects for femtosecond-laser waveguide writing in dielectrics

Ferrer

Cruz

Puerto

et al. 2010

J. Opt. Soc. Am. B

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The effect of nonlinear propagation on the shape of the focal volume has been assessed by in situ plasma emission imaging during the subsurface processing of a commercial phosphate glass. The sample was processed with an elliptically shaped femtosecond-laser beam at 1 kHz repetition rate and scanned transversely with respect to the writing beam axis. As a consequence, optimal conditions for minimizing undesirable nonlinear propagation effects during the production of optical waveguides by direct laser writing have been determined. Under these conditions, it is possible to induce structural transformations and still preserve the focal volume shape associated with the linear propagation regime. While at low pulse energy a single scan laser-written structure does not support a guided mode, the use of multiple scans with minimized nonlinear propagation effects enables the production of optical waveguides. The latter show a significantly improved performance in terms of the refractive index change and propagation losses when compared to single scan waveguides.

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Dynamic Characterization of Upconversion in Highly Er-Doped Silica Photonic Crystal Fibers

Vallés

Berdejo

Rebolledo

et al. 2012

IEEE J. Quantum Electron.

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Detailed characterization of a highly Yb-doped double-clad fiber

et al. 2016

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A characterization method based on the careful measurement of the characteristic parameters and fluorescence emission spectra of a highly Yb-doped double-clad fiber is presented. The method is successfully checked by numerically fitting experimental results of a ring laser based on highly doped double-clad Yb-doped silica fibers with different dopant concentrations, fiber lengths and ring-laser output-coupler rates.

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Performance of ultrafast laser written active waveguides by rigorous modeling of optical gain measurements

Vallés¹,

Ferrer²,

Fernández-Navarro³

et al. 2011

Opt. Mater. Express

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V. Berdejo

Femtosecond laser written 16.5 mm long glass-waveguide amplifier and laser with 5.2 dB cm⁻¹ internal gain at 1534 nm

In situ assessment and minimization of nonlinear propagation effects for femtosecond-laser waveguide writing in dielectrics

Dynamic Characterization of Upconversion in Highly Er-Doped Silica Photonic Crystal Fibers

Detailed characterization of a highly Yb-doped double-clad fiber

Performance of ultrafast laser written active waveguides by rigorous modeling of optical gain measurements

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V. Berdejo

Femtosecond laser written 16.5 mm long glass-waveguide amplifier and laser with 5.2 dB cm−1 internal gain at 1534 nm

In situ assessment and minimization of nonlinear propagation effects for femtosecond-laser waveguide writing in dielectrics

Dynamic Characterization of Upconversion in Highly Er-Doped Silica Photonic Crystal Fibers

Detailed characterization of a highly Yb-doped double-clad fiber

Performance of ultrafast laser written active waveguides by rigorous modeling of optical gain measurements

Contact Info

Product

Resources

About

Femtosecond laser written 16.5 mm long glass-waveguide amplifier and laser with 5.2 dB cm⁻¹ internal gain at 1534 nm