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Literature DB >> 23481756

Low bend loss waveguides enable compact, efficient 3D photonic chips.

Alexander Arriola¹, Simon Gross, Nemanja Jovanovic, Ned Charles, Peter G Tuthill, Santiago M Olaizola, Alexander Fuerbach, Michael J Withford.

Abstract

We present a novel method to fabricate low bend loss femtosecond-laser written waveguides that exploits the differential thermal stabilities of laser induced refractive index modifications. The technique consists of a two-step process; the first involves fabricating large multimode waveguides, while the second step consists of a thermal post-annealing process, which erases the outer ring of the refractive index profile, enabling single mode operation in the C-band. By using this procedure we report waveguides with sharp bends (down to 16.6 mm radius) and high (80%) normalized throughputs. This procedure was used to fabricate an efficient 3D, photonic device known as a "pupil-remapper" with negligible bend losses for the first time. The process will also allow for complex chips, based on 10's - 100's of waveguides to be realized in a compact foot print with short fabrication times.

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Year: 2013 PMID： 23481756 DOI： 10.1364/OE.21.002978

Source DB: PubMed Journal: Opt Express ISSN： 1094-4087 Impact factor: 3.894

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Cited

10 in total

1. On-chip generation of heralded photon-number states.

Authors: Panagiotis Vergyris; Thomas Meany; Tommaso Lunghi; Gregory Sauder; James Downes; M J Steel; Michael J Withford; Olivier Alibart; Sébastien Tanzilli
Journal: Sci Rep Date: 2016-10-24 Impact factor: 4.379

2. Nonlinear increase, invisibility, and sign inversion of a localized fs-laser-induced refractive index change in crystals and glasses.

Authors: Jerome Lapointe; Jean-Philippe Bérubé; Yannick Ledemi; Albert Dupont; Vincent Fortin; Younes Messaddeq; Réal Vallée
Journal: Light Sci Appl Date: 2020-04-20 Impact factor: 17.782

Low bend loss waveguides enable compact, efficient 3D photonic chips.

1. On-chip generation of heralded photon-number states.

2. Nonlinear increase, invisibility, and sign inversion of a localized fs-laser-induced refractive index change in crystals and glasses.

3. Femtosecond laser induced thermophoretic writing of waveguides in silicate glass.

4. Low bend loss femtosecond laser written waveguides exploiting integrated microcrack.

5. Strategies for improved temporal response of glass-based optical switches.

6. Toward Higher Integration Density in Femtosecond-Laser-Written Programmable Photonic Circuits.

7. Engineering integrated photonics for heralded quantum gates.

8. Geometrically-controlled polarisation processing in femtosecond-laser-written photonic circuits.

9. Monolithic mode-selective few-mode multicore fiber multiplexers.

10. Tunable quantum interference in a 3D integrated circuit.