1997
Net optical gain at 1.53 mm in an Er-doped phosphate glass waveguide on silicon
Publication
Publication
Er-doped planar optical waveguide amplifiers, operating at the third telecommunication window near 1.5mm [1], are attractive due to their small size and potential integration with other optical devices, for example, a passive splitter [2] or combiner [3] as loss-compensating components. Considerable effort is being made to realize Er-doped optical waveguide amplifiers. A wide range of materials from glasses to crystals has been investigated as erbium hosts, together with different waveguide fabricating techniques [4-8]. We report here on the gain characterization of a planar optical waveguide amplifier based on Er-doped phosphate glasses, fabricated by RF-sputtering techniques on oxidized silicon substrates. A net optical gain of 4.1 Polman dB has been achieved at a signal wavelength of 1535 nm in a 1-cm long Er-doped phosphate glass waveguide with 66 mW pump power at 980 nm.
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Optical Society of America | |
Organisation | Photonic Materials |
Yan, Y. C., Faber, A. J., de Waal, H., Kik, P. G., & Polman, A. (1997). Net optical gain at 1.53 mm in an Er-doped phosphate glass waveguide on silicon. In Optical Amplifiers and their Applications, Technical Digest (pp. 64–67). |