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Farrell, G.
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Publications (5/5 displayed)
- 2013Corrigendum to "Measurement of thermal elongation induced strain of a composite material using a polarization maintaining photonic crystal fiber sensor"
- 2012High-Q bismuth silicate nonlinear glass microsphere resonatorscitations
- 2011Influence of angular orientation of the embedded highly birefringent fiber on pmd changes under axial stresscitations
- 2011Chalcogenide microsphere fabricated from fibre taper-drawn using resistive heating
- 2002“In-Situ Raman Spectroscopy of Electronic Processes in Fullerene Thin Films
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document
Chalcogenide microsphere fabricated from fibre taper-drawn using resistive heating
Abstract
Over the last decade extreme interest for microsphere resonators has increased rapidly due to their very high quality Q factors, the ease with which they can be manufactured and their versatility in terms of materials and dopants for plenty of passive and active devices. Furthermore, microsphere resonators have the potential to add significant functionality to planar lightwave circuits when coupled to waveguides where they can provide wavelength filtering, delay and low-power switching, and laser functions [1].<br/>Recently, chalcogenides are rapidly establishing themselves technologically superior materials for emerging application in non-volatile memory and high speed switching [2] and have been considered for a range of other optoelectronic technologies. Chalcogenide glasses offer a wide wealth of active properties, an exceptionally high nonlinearity, photosensitivity, the ability to be doped with active elements including lanthanides and transitional metals and are able to form detectors, lasers and amplifiers and offer semiconductor, optical, acousto-optic, superconducting and opto-mechanical properties. Unlike any other optical material, they have been formed in to a multitude of form: such as optical fibres, thin films, bulk optical components, microsphere resonators, metamaterials and nanoparticles, patterned by CMOS compatible processing at the sub micron scale. To date, most studies on microsphere resonators have utilized silica microspheres fabricated by melting the tip of an optical fibre with the resulting stem attached to the microsphere used as a tool to place the sphere in the required location while characterizing the microsphere. In this paper high quality chalcogenide (As<sub>2</sub>S<sub>3</sub>) microspheres with diameters down to 74 µm are directly fabricated from the taper-drawn using a resistive heating process. A reasonable high quality factor greater than 10<sup>5</sup> near the wavelength of 1550 nm is demonstrated with an efficient coupling using a fibre taper with a diameter of 2 µm.