Alice L. S. Cruz scite author profile

Lying between optical and microwave ranges, the terahertz band in the electromagnetic spectrum is attracting increased attention. Optical fibers are essential for developing the full potential of complex terahertz systems. In this manuscript, we review the optimal materials, the guiding mechanisms, the fabrication methodologies, the characterization methods and the applications of such terahertz waveguides. We examine various optical fiber types including tube fibers, solid core fiber, hollow-core photonic bandgap, anti-resonant fibers, porous-core fibers, metamaterial-based fibers, and their guiding mechanisms. The optimal materials for terahertz applications are discussed. The past and present trends of fabrication methods, including drilling, stacking, extrusion and 3D printing, are elaborated. Fiber characterization methods including different optics for terahertz time-domain spectroscopy (THz-TDS) setups are reviewed and application areas including short-distance data transmission, imaging, sensing, and spectroscopy are discussed.

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Experimental Study on Glass and Polymers: Determining the Optimal Material for Potential Use in Terahertz Technology

Islam

Cordeiro

Nine

et al. 2020

IEEE Access

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The optical properties of polymers and glasses useful for terahertz applications are experimentally characterized using terahertz time-domain spectroscopy (THz-TDS). A standard system setup utilizing transmission spectroscopy is used to measure different optical properties of materials including refractive index, relative permittivity, loss tangent, absorption coefficient, and transmittance. The thermal and chemical dependencies of materials are also studied to identify the appropriate materials for given terahertz applications. The selected materials can then be utilized for applications such as in waveguides, filters, lenses, polarization preserving devices, metamaterials and metasurfaces, absorbers, and sensors in the terahertz frequency range.INDEX TERMS Spectroscopy, terahertz materials, materials preparation, absorption, chemical analysis, thermal analysis.

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3D Printed Hollow-Core Terahertz Fibers

Cruz

Cordeiro

Franco

2018

Fibers

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This paper reviews the subject of 3D printed hollow-core fibers for the propagation of terahertz (THz) waves. Several hollow and microstructured core fibers have been proposed in the literature as candidates for low-loss terahertz guidance. In this review, we focus on 3D printed hollow-core fibers with designs that cannot be easily created by conventional fiber fabrication techniques. We first review the fibers according to their guiding mechanism: photonic bandgap, antiresonant effect, and Bragg effect. We then present the modeling, fabrication, and characterization of a 3D printed Bragg and two antiresonant fibers, highlighting the advantages of using 3D printers as a path to make the fabrication of complex 3D fiber structures fast and cost-effective.

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Broadband Characterization of Glass and Polymer Materials Using THz-TDS

Islam

Sultana

Cordeiro

et al. 2019

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3D-printed terahertz Bragg fiber

Cruz¹,

Argyros

Tang

et al. 2015

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In this paper we demonstrate the terahertz propagation in Bragg fiber manufactured through rapid prototyping technique using low cost 3D printer. The fiber was numerically and experimentally characterized using software based on beam propagation method (BPM) and a terahertz time domain spectrometer (THz-TDS). The transmission structures indicate a good agreement between numerical and experimental data.

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Alice L. S. Cruz

Terahertz optical fibers [Invited]

Experimental Study on Glass and Polymers: Determining the Optimal Material for Potential Use in Terahertz Technology

3D Printed Hollow-Core Terahertz Fibers

Broadband Characterization of Glass and Polymer Materials Using THz-TDS

3D-printed terahertz Bragg fiber

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