Broadband integrated beam splitter using spatial adiabatic passage

Light routing and manipulation are important aspects of integrated optics. They essentially rely on beam splitters which are at the heart of interferometric setups and active routing. The most common implementations of beam splitters suffer either from strong dispersive response (directional coupler...

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Bibliographic Details
Published in:Optics express Vol. 26; no. 21; pp. 27058 - 27063
Main Authors: Lunghi, T, Doutre, F, Rambu, A P, Bellec, M, De Micheli, M P, Apetrei, A M, Alibart, O, Belabas, N, Tascu, S, Tanzilli, S
Format: Journal Article
Language:English
Published: United States Optical Society of America - OSA Publishing 15-10-2018
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Summary:Light routing and manipulation are important aspects of integrated optics. They essentially rely on beam splitters which are at the heart of interferometric setups and active routing. The most common implementations of beam splitters suffer either from strong dispersive response (directional couplers) or tight fabrication tolerances (multimode interference couplers). In this paper we fabricate a robust and simple broadband integrated beam splitter based on lithium niobate with a splitting ratio achromatic over more than 130 nm. Our architecture is based on spatial adiabatic passage, a technique originally used to transfer entirely an optical beam from a waveguide to another one that has been shown to be remarkably robust against fabrication imperfections and wavelength dispersion. Our device shows a splitting ratio of 0.52±0.03 and 0.48±0.03 from 1500 nm up to 1630 nm. Furthermore, we show that suitable design enables the splitting in output beams with relative phase 0 or π. Thanks to their independence to material dispersion, these devices represent simple, elementary components to create achromatic and versatile photonic circuits.
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ISSN:1094-4087
1094-4087
DOI:10.1364/OE.26.027058