Joel R. Salazar-Gil scite author profile

We demonstrate a 3x1 fiber-based photonic lantern spatial-multiplexer with mode-selectivity greater than 6 dB and transmission loss of less than 0.3 dB. The total insertion loss of the mode-selective multiplexers when coupled to a graded-index few-mode fiber was < 2 dB. These mode multiplexers showed mode-dependent loss below 0.5 dB. To our knowledge these are the lowest insertion and mode-dependent loss devices, which are also fully compatible with conventional few-mode fiber technology and broadband operation.

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Photonic-Lantern-Based Mode Multiplexers for Few-Mode-Fiber Transmission

Ryf¹,

Fontaine²,

Montoliu³

et al. 2014

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Wavelength-selective Switch for Few-mode Fiber Transmission

Ryf

Fontaine

Dunayevsky

et al. 2013

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1x11 few-mode fiber wavelength selective switch using photonic lanterns

Carpenter¹,

Leon-Saval²,

Salazar-Gil³

et al. 2014

Opt. Express

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Divide and conquer: an efficient solution to highly multimoded photonic lanterns from multicore fibres

et al. 2017

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Photonic lanterns typically allow for single-mode action in a multimode fibre. Since their invention over a decade ago for applications in astrophotonics, they have found important uses in diverse fields of applied science. To date, large aperture highly-mulitmoded to single-mode lanterns have been difficult as fabrication techniques are not practical for mass replication. Here as a proof of concept, we demonstrate three different devices based on multicore fibre photonic lanterns with: 100µm core diameters; NAs = 0.16 and 0.15; and requiring 259 single-mode core system, specifically 7 multicore fibres each with 37 cores, instead of 259 individual single-mode fibres. The average insertion loss excluding coupling efficiencies is only 0.4dB (>91% transmission). This concept has numerous advantages, in particular, (i) it is a direct scaleable solution, (ii) eases imprinting of photonic functions, e.g. fibre Bragg gratings; and (iii) new approach for large-area optical fibre slicers for future large-aperture telescopes.

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