S. Steinberg scite author profile

A quantitative comparison of the photorefractive effect in annealed proton-exchanged channel waveguides in MgO-doped and congruent LiNbO(3) at the wavelengths of 633 and 830 nm is presented. An accurate measurement technique is described to measure the refractive-index change as a function of time and the guided mode intensity for different wavelengths. The results show that doping with 7% MgO reduces the photorefractive effect at a wavelength of lambda = 633 nm by 2 orders of magnitude. The photorefractive effect in the doped substrate shows only a weak dependence on the guided power. Doping with 4 mol.% MgO has only little effect on the photorefractive effect compared with that on the congruent material. A reduced photovoltaic current is responsible for the small photorefractive effect in the 7 mol. %-doped substrate.

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Lasers and Coherent Light Sources

Svelto

Longhi

Valle

et al. 2012

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Annealed proton-implanted channel waveguides in LiNbO3 and their photorefractive properties

Rottschalk

Bachmann

Steinberg

et al. 1994

Optics Communications

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Light-induced refractive index changes in singlemode channel waveguides in KTiOPO4

Ruske

Rottschalk

Steinberg

1995

Optics Communications

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S. Steinberg

Photoconductivity and photovoltaic behaviour of LiNbO3 and LiNbO3 waveguides at high optical intensities

Comparison of photorefractive-index changes in annealed-proton-exchanged channel waveguides in MgO-doped and congruent LiNbO_3

Lasers and Coherent Light Sources

Annealed proton-implanted channel waveguides in LiNbO3 and their photorefractive properties

Light-induced refractive index changes in singlemode channel waveguides in KTiOPO4

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