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“Hollow-core fibres are a speciality of optical fibre. Instead of guiding light in glass, you’re guiding it in air,” Natalie explained. “This creates unique and improved properties compared to conventional fibres. Southampton has a prestigious reputation for optical fibre research – there are only two places in the country to make HCFs and Southampton is one of them. That reputation and the ambition and scope of the European project were some of the reasons why I came to Southampton. The project also provided lots of opportunity for collaboration and the length of the project was really attractive – it was well supported and had a long-term ambition, which is something I really wanted at the start of my career.”
Natalie has stayed within the Microstructured Optical Fibre research area but has moved on to work on different projects. In 2014, she applied for a Royal Society Research Fellowship. She was encouraged to apply for the five-year Fellowship by her line manager and was given support with the application. Her successful application secured funding for research into the fabrication of next generation low loss and low bend sensitivity hollow-core fibres for mid-infrared wavelengths. Apart from fibre fabrication, Natalie’s research is also focussed on gas-based applications of HCF technology, including absorption and Raman-based gas sensors and frequency metrology.
Natalie has stayed within the Microstructured Optical Fibre research area but has moved on to work on different projects. In 2014, she applied for a Royal Society Research Fellowship. She was encouraged to apply for the five-year Fellowship by her line manager and was given support with the application. Her successful application secured funding for research into the fabrication of next generation low loss and low bend sensitivity hollow-core fibres for mid-infrared wavelengths. Apart from fibre fabrication, Natalie’s research is also focussed on gas-based applications of HCF technology, including absorption and Raman-based gas sensors and frequency metrology.
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Qiang Fu,Ian A. Davidson, Seyed Mohammad A. Mousavi, Hans Christian H. Mulvad,Natalie V. Wheeler,Lin Xu,Francesco Poletti,David J. Richardson
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