Luciano Mescia scite author profile

In this topical review, the recent progress on radiation-hardened fiber-based technologies is detailed, focusing on examples for space applications. In the first part of the review, we introduce the operational principles of the various fiber-based technologies considered for use in radiation environments: passive optical fibers for data links, diagnostics, active optical fibers for amplifiers and laser sources as well as the different classes of point and distributed fiber sensors: gyroscopes, Bragg gratings, Rayleigh, Raman or Brillouin-based distributed sensors. Second, we describe the state of the art regarding our knowledge of radiation effects on the performance of these devices, from the microscopic effects observed in the amorphous silica glass used to design fiber cores and cladding, to the macroscopic response of fiber-based devices and systems. Third, we present the recent advances regarding the hardening (improvement of the radiation tolerance) of these technologies acting on the material, device or system levels. From the review, the potential of fiber-based technologies for operation in radiation environments is demonstrated and the future challenges to be overcome in the coming years are presented.

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Design of mid-infrared amplifiers based on fiber taper coupling to erbium-doped microspherical resonator

Mescia¹,

Bia²,

Sario³

et al. 2012

Opt. Express

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A dedicated 3D numerical model based on coupled mode theory and solving the rate equations has been developed to analyse, design and optimize an optical amplifier obtained by using a tapered fiber and a Er³⁺-doped chalcogenide microsphere. The simulation model takes into account the main transitions among the erbium energy levels, the amplified spontaneous emission and the most important secondary transitions pertaining to the ion-ion interactions. The taper angle of the optical fiber and the fiber-microsphere gap have been designed to efficiently inject into the microsphere both the pump and the signal beams and to improve their spatial overlapping with the rare earth doped region. In order to reduce the computational time, a detailed investigation of the amplifier performance has been carried out by changing the number of sectors in which the doped area is partitioned. The simulation results highlight that this scheme could be useful to develop high efficiency and compact mid-infrared amplifiers.

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Terahertz electromagnetic field propagation in human tissues: A study on communication capabilities

Piro

Bia

Boggia

et al. 2016

Nano Communication Networks

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Fractional Derivative Based FDTD Modeling of Transient Wave Propagation in Havriliak–Negami Media

Mescia

Bia

Caratelli³

2014

IEEE Trans. Microwave Theory Techn.

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A novel FDTD formulation based on fractional derivatives for dispersive Havriliak–Negami media

Bia

Caratelli²,

Mescia

et al. 2015

Signal Processing

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Advances on Optical Fiber Sensors

Mescia

Prudenzano

2013

Fibers

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In this review paper some recent advances on optical fiber sensors are reported. In particular, fiber Bragg grating (FBG), long period gratings (LPGs), evanescent field and hollow core optical fiber sensors are mentioned. Examples of recent optical fiber sensors for the measurement of strain, temperature, displacement, air flow, pressure, liquid-level, magnetic field, and the determination of methadone, hydrocarbons, ethanol, and sucrose are briefly described.

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Authors’ Reply

Mescia

Bia

Caratelli

2015

IEEE Trans. Microwave Theory Techn.

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Analysis and synthesis of supershaped dielectric lens antennas

Bia

Caratelli²,

Mescia

et al. 2015

IET Microwaves, Antennas & Propagation

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A novel class of supershaped dielectric lens antennas, whose geometry is described by the three‐dimensional (3D) Gielis’ formula, is introduced and analysed. To this end, a hybrid modelling approach based on geometrical and physical optics is adopted in order to efficiently analyse the multiple wave reflections occurring within the lens and to evaluate the relevant impact on the radiation properties of the antenna under analysis. The developed modelling procedure has been validated by comparison with numerical results already reported in the literature and, afterwards, applied to the electromagnetic characterisation of Gielis’ dielectric lens antennas with shaped radiation pattern. Furthermore, a dedicated optimisation algorithm based on quantum particle swarm optimisation has been developed for the synthesis of 3D supershaped lens antennas with single feed, as well as with beamforming capabilities.

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Luciano Mescia

Recent advances in radiation-hardened fiber-based technologies for space applications

Design of mid-infrared amplifiers based on fiber taper coupling to erbium-doped microspherical resonator

Terahertz electromagnetic field propagation in human tissues: A study on communication capabilities

Fractional Derivative Based FDTD Modeling of Transient Wave Propagation in Havriliak–Negami Media

A novel FDTD formulation based on fractional derivatives for dispersive Havriliak–Negami media

Advances on Optical Fiber Sensors

Authors’ Reply

Analysis and synthesis of supershaped dielectric lens antennas

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