2014
DOI: 10.1049/el.2014.2378
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Microsecond optical switching of five channels by KTN electro‐optic deflector

Abstract: A 1 × 5 optical switch with a switching speed of microseconds is demonstrated. Switching between different channels in a planar lightwave circuit waveguide array was controlled using an electro-optic beam deflector. A single crystal of potassium tantalate niobate (KTa 1−x Nb x O 3 , KTN) was used as a deflector to realise this operation. A switching speed of 8.1 μs was demonstrated for the switching of two adjacent channels.Introduction: Optical switching using electro-optic (EO) deflectors has received a lot … Show more

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Cited by 3 publications
(1 citation statement)
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“…Both types of deflectors offer advantages such as a large deflection angle, low energy consumption, and nanosecond deflection speed. In recent years, KTN crystals have been used to make dynamic optical waveguides, electro-optical modulators, high-speed scanners, and other optoelectronic functional devices. However, there are still some problems to be solved in the practical application of KTN crystals, and researchers have conducted in-depth studies on them. For example, Yin et al solved the problem that the charge injection depth is limited by the bound charge and used the physical mechanism of excitation of bound electrons by blue-light photons to increase the charge injection depth and increase the deflection angle.…”
Section: Introductionmentioning
confidence: 99%
“…Both types of deflectors offer advantages such as a large deflection angle, low energy consumption, and nanosecond deflection speed. In recent years, KTN crystals have been used to make dynamic optical waveguides, electro-optical modulators, high-speed scanners, and other optoelectronic functional devices. However, there are still some problems to be solved in the practical application of KTN crystals, and researchers have conducted in-depth studies on them. For example, Yin et al solved the problem that the charge injection depth is limited by the bound charge and used the physical mechanism of excitation of bound electrons by blue-light photons to increase the charge injection depth and increase the deflection angle.…”
Section: Introductionmentioning
confidence: 99%