J.C. Baggett scite author profile

The optical and geometrical properties of microstructured optical fibres present new alternatives for a range of sensing applications. We present the design criteria for achieving significant overlap between the light guided in the fibre and the air holes and hence for producing efficient evanescent field devices. In addition, the novel dispersive properties combined with the tight mode confinement possible in holey fibres make ultra-broadband single-mode sources and new source wavelengths a possibility. Microstructuring technology can be readily extended to form multiple-core fibres, which have applications in bend/deformation sensing. Finally, fibre-based atom waveguides could ultimately be used for rotational or gravitational sensing.

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Nonlinear femtosecond pulse compression at high average power levels by use of a large-mode-area holey fiber

Südmeyer¹,

Brunner²,

Innerhofer³

et al. 2003

Opt. Lett.

132

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Understanding bending losses in holey optical fibers

Baggett

Monro

Furusawa

et al. 2003

Optics Communications

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Comparative study of large-mode holey and conventional fibers

et al. 2001

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Polarization mode dispersion reduction in spun large mode area silica holey fibres

et al. 2004

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J.C. Baggett

Sensing with microstructured optical fibres

Nonlinear femtosecond pulse compression at high average power levels by use of a large-mode-area holey fiber

Understanding bending losses in holey optical fibers

Comparative study of large-mode holey and conventional fibers

Polarization mode dispersion reduction in spun large mode area silica holey fibres

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