Add to ORKGWe report on the fabrication of both enclosed and exposed suspended-core silica microstructured optical fibres. Both the fibre loss and environmental stability are characterised when exposed to some typical sensing and storage environments.Roman Kostecki, Erik P. Schartner, Heike Ebendorff-Heidepriem, Peter C. Henry, and Tanya M. Monr
We report on a one step functionalization process for optical fiber sensing applications in which a ...
International audienceChalcogenide glasses are known for their transparency in the infrared optical ...
We have thoroughly studied and modelled many important aspects for the realization of gas-light inte...
We report the fabrication of silica microstructured optical fibers with the core exposed along the w...
We demonstrate low-loss guidance of small-core exposed core fibers, fabricated through a drilling te...
The development of microstructured fibres offers the prospect of improved fibre sensing for low refr...
This paper summarises recent work conducted on the development of exposed core microstructured optic...
The development of optical fibers with suspended cores has enabled the demonstration of a range of p...
Introducing nanostructures and coatings into optical fibers creates new ways of interacting light wi...
The development of core-clad silica glass optical fibers has revolutionized communications systems o...
This thesis contains a study on the fluorescence based chemical sensing properties of microstructure...
Microstructured fibres (MOFs) are among the most innovative developments in optical fibre technology...
Suspended core fiber (SCF) is one of the key classes of microstructured optical fibers (MOFs), wh...
We demonstrate a new approach to high temperature sensing using femtosecond laser ablation gratings ...
A brief review on suspended-core fibers for sensing applications is presented. A historical overview...
We report on a one step functionalization process for optical fiber sensing applications in which a ...
International audienceChalcogenide glasses are known for their transparency in the infrared optical ...
We have thoroughly studied and modelled many important aspects for the realization of gas-light inte...
We report the fabrication of silica microstructured optical fibers with the core exposed along the w...
We demonstrate low-loss guidance of small-core exposed core fibers, fabricated through a drilling te...
The development of microstructured fibres offers the prospect of improved fibre sensing for low refr...
This paper summarises recent work conducted on the development of exposed core microstructured optic...
The development of optical fibers with suspended cores has enabled the demonstration of a range of p...
Introducing nanostructures and coatings into optical fibers creates new ways of interacting light wi...
The development of core-clad silica glass optical fibers has revolutionized communications systems o...
This thesis contains a study on the fluorescence based chemical sensing properties of microstructure...
Microstructured fibres (MOFs) are among the most innovative developments in optical fibre technology...
Suspended core fiber (SCF) is one of the key classes of microstructured optical fibers (MOFs), wh...
We demonstrate a new approach to high temperature sensing using femtosecond laser ablation gratings ...
A brief review on suspended-core fibers for sensing applications is presented. A historical overview...
We report on a one step functionalization process for optical fiber sensing applications in which a ...
International audienceChalcogenide glasses are known for their transparency in the infrared optical ...
We have thoroughly studied and modelled many important aspects for the realization of gas-light inte...