Full-field characterization of helical Bloch modes guided in twisted coreless 
photonic crystal fiber

Roth, Paul; Wong, Gordon; Frosz, Michael; Ahmed, Goran; Russell, Philip

doi:10.1364/OL.44.005049

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Full-field characterization of helical Bloch modes guided in twisted coreless photonic crystal fiber

MPG-Autoren

Roth, Paul
Russell Division, Max Planck Institute for the Science of Light, Max Planck Society;

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Wong, Gordon
Russell Division, Max Planck Institute for the Science of Light, Max Planck Society;

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Frosz, Michael
Russell Division, Max Planck Institute for the Science of Light, Max Planck Society;
Fibre Fabrication and Glass Studio, Technology Development and Service Units, Max Planck Institute for the Science of Light, Max Planck Society;

Ahmed, Goran
Fibre Fabrication and Glass Studio, Technology Development and Service Units, Max Planck Institute for the Science of Light, Max Planck Society;

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Russell, Philip
Russell Division, Max Planck Institute for the Science of Light, Max Planck Society;
Department of Physics, Friedrich-Alexander-Universität Erlangen-Nürnberg;

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Zitation

Roth, P., Wong, G., Frosz, M., Ahmed, G., & Russell, P. (2019). Full-field characterization of helical Bloch modes guided in twisted coreless photonic crystal fiber. Optics Letters, 44(20), 5049-5052. doi:10.1364/OL.44.005049.

Zitierlink: https://hdl.handle.net/21.11116/0000-0005-4387-7

Zusammenfassung

It was recently reported that a photonic crystal fiber (PCF) with no structural core guides light if a permanent chiral twist is introduced by spinning the fiber preform during the draw. The intriguing guidance mechanism behind this novel effect has many remarkable features; for example, it intrinsically supports circularly polarized helical Bloch modes (HBMs) that carry multiple optical vortices, making twisted PCFs of interest in fields such as optical micromanipulation, imaging, quantum optics, and optical communications. Here we report for the first time, to the best of our knowledge, that a twisted coreless PCF supports not just one but a family of guided HBMs, each member of which has a unique transverse field distribution and harmonic spectrum. By making detailed interferometric measurements of the near-field phase and amplitude distributions of HBMs, and expanding them as a series of Bessel beams, we are able to extract the amplitude of each azimuthal and radial HBM harmonic. Good agreement is found with the numerical solutions of Maxwell’s equations. The results shed light on the properties of this curious new optical phenomenon.