Your search keyword '"Gil JR"' showing total 4 results

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

Author

Leon-Saval SG, Betters CH, Salazar-Gil JR, Min SS, Gris-Sanchez I, Birks TA, Lawrence J, Haynes R, Haynes D, Roth M, Veilleux S, and Bland-Hawthorn J

Abstract

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.

Published

2017

2. Wavelength-selective switch with direct few mode fiber integration.

Author

Marom DM, Dunayevsky J, Sinefeld D, Blau M, Ryf R, Fontaine NK, Montoliu M, Randel S, Liu C, Ercan B, Esmaeelpour M, Chandrasekhar S, Gnauck AH, Leon-Saval SG, Bland-Hawthorn J, Salazar-Gil JR, Sun Y, Grüner-Nielsen L, and Lingle R

Abstract

The first realization of a wavelength-selective switch (WSS) with direct integration of few mode fibers (FMF) is fully described. The free-space optics FMF-WSS dynamically steers spectral information-bearing beams containing three spatial modes from an input port to one of nine output ports using a phase spatial light modulator. Sources of mode dependent losses (MDL) are identified, analytically analyzed and experimentally confirmed on account of different modal sensitivities to fiber coupling in imperfect imaging and at spectral channel edges due to mode clipping. These performance impacting effects can be reduced by adhering to provided design guidelines, which scale in support of higher spatial mode counts. The effect on data transmission of cascaded passband filtering and MDL build-up is experimentally investigated in detail.

Published

2015

3. 1x11 few-mode fiber wavelength selective switch using photonic lanterns.

Author

Carpenter J, Leon-Saval SG, Salazar-Gil JR, Bland-Hawthorn J, Baxter G, Stewart L, Frisken S, Roelens MA, Eggleton BJ, and Schröder J

Abstract

We demonstrate an 11 port count wavelength selective switch (WSS) supporting spatial superchannels of three spatial modes, based on the combination of photonic lanterns and a high-port count single-mode WSS.

Published

2014

4. Mode-selective photonic lanterns for space-division multiplexing.

Author

Leon-Saval SG, Fontaine NK, Salazar-Gil JR, Ercan B, Ryf R, and Bland-Hawthorn J

Abstract

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.

Published

2014