M. A. Gouveia scite author profile

M. A. Gouveia

5Publications

160Citation Statements Received

37Citation Statements Given

How they've been cited

269

155

How they cite others

Affiliations

University of Southampton, Universidade Estadual de Campinas

Publications

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Antiresonant Hollow Core Fiber with Octave Spanning Bandwidth for Short Haul Data Communications

Hayes

Sandoghchi

Bradley

et al. 2016

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Abstract-We report an effectively single mode tubular antiresonant hollow core fiber with minimum loss of ~25 dB/km at ~1200 nm, and an extremely wide low loss transmission window (lower than 30 dB/km loss from 1000 nm to 1400 nm and 6 dB bandwidth exceeding 1000 nm). Despite the relatively large mode field diameter of 32 µm, the fiber can be interfaced to SMF28 to produce fully connectorized samples. Exploiting an excellent modal purity arising from large modal differential loss and low intermodal coupling, we demonstrate penalty-free 10G on-off keying data transmission through 100m of fiber, at wavelengths of 1065, 1565 and 1963nm.Index Terms-Fiber optics communications, hollow core optical fibers, low latency, microstructured optical fibers.

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Antiresonant Hollow Core Fiber With an Octave Spanning Bandwidth for Short Haul Data Communications

Hayes

Sandoghchi

Bradley

et al. 2017

J. Lightwave Technol.

117

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Mid-IR Hollow-core microstructured fiber drawn from a 3D printed PETG preform

Talataisong

Ismaeel

Marques

et al. 2018

Sci Rep

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Mid-infrared (mid-IR) optical fibers have long attracted great interest due to their wide range of applications in security, biology and chemical sensing. Traditionally, research was directed towards materials with low absorption in the mid-IR region, such as chalcogenides, which are difficult to manipulate and often contain highly toxic elements. In this paper, we demonstrate a Polyethylene Terephthalate Glycol (PETG) hollow-core fiber (HCF) with guiding properties in the mid-IR. Guiding is provided by the fiber geometry, as PETG exhibits a material attenuation 2 orders of magnitude larger than the HCF propagation loss. The structured plastic fiber preforms were fabricated using commercial 3D printing technology and then drawn using a conventional fiber drawing tower. The final PETG fiber outer diameter was 466 µm with a hollow-core diameter of 225 µm. Thermal imaging at the fiber facet performed within the wavelength range 3.5–5 µm clearly indicates air guidance in the fiber hollow-core.

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Low-loss Kagome hollow-core fibers operating from the near- to the mid-IR

et al. 2017

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We report the fabrication and characterization of Kagome hollow-core antiresonant fibers, which combine low attenuation (as measured at ∼30 cm bend diameter) with a wide operating bandwidth and high modal purity. Record low attenuation values are reported: 12.3 dB/km, 13.9 dB/km, and 9.6 dB/km in three different fibers optimized for operation at 1 μm, 1.55 μm, and 2.5 μm, respectively. These fibers are excellent candidates for ultra-high power delivery at key laser wavelengths including 1.064 μm and 2.94 μm, as well as for applications in gas-based sensing and nonlinear optics.

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Record PM-16QAM and PM-QPSK transmission distance (125 and 340 km) over hollow-core-fiber

Nespola

Straullu

Bradley

et al. 2019

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M. A. Gouveia

Antiresonant Hollow Core Fiber with Octave Spanning Bandwidth for Short Haul Data Communications

Antiresonant Hollow Core Fiber With an Octave Spanning Bandwidth for Short Haul Data Communications

Mid-IR Hollow-core microstructured fiber drawn from a 3D printed PETG preform

Low-loss Kagome hollow-core fibers operating from the near- to the mid-IR

Record PM-16QAM and PM-QPSK transmission distance (125 and 340 km) over hollow-core-fiber

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