Fabrication and characterization of channel optical waveguides in Er/Yb-doped silicate glasses

Ondráček, František; Salavcova, Linda; Míka, M.; Lahodný, František; Slavı́k, Radan; Špirková, Jarmila; Čtyroký, Jiřı́

doi:10.1016/j.optmat.2006.12.004

Optical Materials

2007

DOI: 10.1016/j.optmat.2006.12.004

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Fabrication and characterization of channel optical waveguides in Er/Yb-doped silicate glasses

František Ondráček

Linda Salavcova

M. Míka

et al.

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Cited by 7 publications

(2 citation statements)

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“…In this concept, a lossless splitter for signal distribution into a number of outputs combined with an optical amplifier and a pump-signal de/multiplexer is highly desirable, especially in the local area networks. Many research groups have focused on the development of optical amplifiers Manuscript received October 11, 2007; revised January 7,2008 [4]- [6]. The latter is an effective and cheap fabrication technique [7], which has already allowed development of low-loss straight as well as bent channel waveguides.…”

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confidence: 99%

“…Concerning the devices, 1 32 coupler [8] is being commercially used, and the integrated pump-signal (980 nm/1550 nm) de/multiplexer [9] has been recently developed. The only major disadvantage of the ion exchange technique is that it requires thoughtful adjustment of the technological procedure appropriate for a certain combination of a chosen glass substrate [6] and the expected utilization of the waveguide. However, once the fabrication procedure is adjusted, this technique enables formation of huge amount of low-cost waveguides with fully reproducible properties.…”

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confidence: 99%

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Er–Yb Waveguide Amplifiers in Novel Silicate Glasses

Ondráček

Jágerská²,

Salavcova³

et al. 2008

IEEE J. Quantum Electron.

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Abstract-A set of novel silicate glasses containing ZnO and co-doped with Er 3+ and Yb 3+ was designed as substrates for optical waveguide amplifiers. Characterized by exceptionally low up-conversion, minimum Er concentration quenching and high mechanical as well as chemical stability, the reported glasses can compete with phosphate-based materials typically used in the state-of-art active devices. Straight channel waveguides with propagation losses as low as 0.18 dB/cm were fabricated in these substrates using Ag + Na + and K + Na + thermal ion exchange. Net on-chip gain values of 6.7 dB at 1537 nm were measured and a net fiber to-fiber gain of 5 dB was achieved when pumped at 976 nm. A six-level spatially resolved numerical model of an Er-Yb co-doped active waveguide was developed to analyze and optimize the amplifier performance. Modification of the rare-earth dopant concentration and the channel waveguide geometry was proposed to increase the gain figure and improve the overall amplifier efficiency.Index Terms-Channel waveguides, Er-Yb-doped glass, ion exchange, optical waveguide amplifier.

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confidence: 99%

mentioning

confidence: 99%

Er–Yb Waveguide Amplifiers in Novel Silicate Glasses

Ondráček

Jágerská²,

Salavcova³

et al. 2008

IEEE J. Quantum Electron.

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Er3+/Yb3+ doped active optic Y splitter realized by diffusion waveguides with Ag+—Na+ ion exchange

et al. 2021

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We reported on the active channel waveguides, formed in novel types of silicate glasses, doped with rare-earth elements, and Zn were investigated. The silicate glass GZ4 with Er 3+ and Yb 3+ content was studied, and the best doping ratio was estimated about luminescent properties. The composition of the glass samples (GZ4) with the content of 0.25 at. % Er 3+ and 5.0 at. % Yb 3+ and Zn 4.0 at. % resp. 5.6 at. % Zn was optimized. This glass was evaluated as the most suitable material for integrated amplifiers in the telecommunication band of 1 530 -1 565 nm. Other samples were prepared with an active channel waveguides and active planar optical power splitter Y with a splitting ratio of 1x2 by two-step ionexchange Na + -Ag + . Diffusion profiles of the created samples were analyzed by the EMA microscope and compared with the near mode-field distribution measurement results. Afterward, the amplification properties of the designed structures were studied, and the differential gain from 1.2 to 1.6 dB (0.48 to 0.64 dB/cm) was achieved by pumping 200 mW at 980 nm.

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The influence of Ag species on spectroscopic features of Tb3+-activated sodium–aluminosilicate glasses via Ag+–Na+ ion exchange

Li¹,

Yang²,

Zhou³

et al. 2014

Journal of Non-Crystalline Solids

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Fabrication and characterization of channel optical waveguides in Er/Yb-doped silicate glasses

Cited by 7 publications

References 4 publications

Er–Yb Waveguide Amplifiers in Novel Silicate Glasses

Er–Yb Waveguide Amplifiers in Novel Silicate Glasses

Er3+/Yb3+ doped active optic Y splitter realized by diffusion waveguides with Ag+—Na+ ion exchange

The influence of Ag species on spectroscopic features of Tb3+-activated sodium–aluminosilicate glasses via Ag+–Na+ ion exchange

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