Katie Addinall scite author profile

We report the use of a terahertz (THz) transparent material, cyclic olefin copolymer (COC or TOPAS), for fabricating a hollow-core antiresonant fiber that provides an electromagnetic wave guidance in the THz regime. A novel fabrication technique to realize a hollow-core antiresonant polymer optical fiber (HC-ARPF) for THz guidance is proposed and demonstrated. The fiber is directly extruded in a single-step procedure using a conventional fused deposition modeling 3D printer. The fiber geometry is defined by a structured nozzle manufactured with a metal 3D printer, which allows tailoring of the nozzle design to the various geometries of microstructured optical fibers. The possibility to use the HC-ARPF made from TOPAS for guiding in the THz region is theoretically and experimentally assessed through the profile of mode simulation and time-frequency diagram (spectrogram) analysis.

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The effect of primer cap material on ballistic toolmark evidence

Addinall

Zeng

Bills

et al. 2019

Forensic Science International

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Comparison and appraisal of techniques for the determination of material loss from tapered orthopaedic surfaces

Dransfield

Addinall

Bills

2021

Wear

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Katie Addinall

Hollow-core antiresonant terahertz fiber-based TOPAS extruded from a 3D printer using a metal 3D printed nozzle

The effect of primer cap material on ballistic toolmark evidence

Comparison and appraisal of techniques for the determination of material loss from tapered orthopaedic surfaces

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