B. J. Mangan scite author profile

The confinement of light within a hollow core (a large air hole) in a silica-air photonic crystal fiber is demonstrated. Only certain wavelength bands are confined and guided down the fiber, each band corresponding to the presence of a full two-dimensional band gap in the photonic crystal cladding. Single-mode vacuum waveguides have a multitude of potential applications from ultrahigh-power transmission to the guiding of cold atoms.

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Ultimate low loss of hollow-core photonic crystal fibres

Roberts

Couny²,

Sabert³

et al. 2005

Opt. Express

778

463

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Hollow-core photonic crystal fibres have excited interest as potential ultra-low loss telecommunications fibres because light propagates mainly in air instead of solid glass. We propose that the ultimate limit to the attenuation of such fibres is determined by surface roughness due to frozenin capillary waves. This is confirmed by measurements of the surface roughness in a HC-PCF, the angular distribution of the power scattered out of the core, and the wavelength dependence of the minimum loss of fibres drawn to different scales.

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Highly Birefringent Photonic Crystal Fibers

Ortigosa-Blanch¹,

Knight²,

Wadsworth³

et al. 2001

Optics & Photonics News

146

186

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Highly birefringent photonic crystal fibers

et al. 2000

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We report a strongly anisotropic photonic crystal fiber. Twofold rotational symmetry was introduced into a single-mode fiber structure by creation of a regular array of airholes of two sizes disposed about a pure-silica core. Based on spectral measurements of the polarization mode beating, we estimate that the fiber has a beat length of approximately 0.4 mm at a wavelength of 1540 nm, in good agreement with the results of modeling.

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“Photonic lantern” spectral filters in multi-core fibre

et al. 2012

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B. J. Mangan

Single-Mode Photonic Band Gap Guidance of Light in Air

Ultimate low loss of hollow-core photonic crystal fibres

Highly Birefringent Photonic Crystal Fibers

Highly birefringent photonic crystal fibers

“Photonic lantern” spectral filters in multi-core fibre

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