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Publications

Publications by Henrique Salgado

2013

Experimental evaluation of a R-EAM and noise impact analysis for UWB and Wi-Fi transmission in RoF networks

Authors
Pessoa, LM; Oliveira, JMB; Coelho, DV; Castro, JCS; Salgado, HM;

Publication
ANNALS OF TELECOMMUNICATIONS-ANNALES DES TELECOMMUNICATIONS

Abstract
The performance of a reflective electro-absorption modulator transceiver is assessed in terms of both slope efficiency (SE) and responsivity in a radio-over-fiber network. Different biasing schemes are analyzed, specifically zero bias (passive solution), bias for maximum SE, and bias for maximum responsivity. Finally, two case studies on multiband orthogonal frequency division multiplexing ultra-wide band and Wi-Fi are presented, for which the optimum setup parameters are determined.

2013

Photo-Detectors Integrated with Resonant Tunneling Diodes

Authors
Romeira, B; Pessoa, LM; Salgado, HM; Ironside, CN; Figueiredo, JML;

Publication
SENSORS

Abstract
We report on photo-detectors consisting of an optical waveguide that incorporates a resonant tunneling diode (RTD). Operating at wavelengths around 1.55 m in the optical communications C band we achieve maximum sensitivities of around 0.29 A/W which is dependent on the bias voltage. This is due to the nature of RTD nonlinear current-voltage characteristic that has a negative differential resistance (NDR) region. The resonant tunneling diode photo-detector (RTD-PD) can be operated in either non-oscillating or oscillating regimes depending on the bias voltage quiescent point. The oscillating regime is apparent when the RTD-PD is biased in the NDR region giving rise to electrical gain and microwave self-sustained oscillations Taking advantage of the RTD's NDR distinctive characteristics, we demonstrate efficient detection of gigahertz (GHz) modulated optical carriers and optical control of a RTD GHz oscillator. RTD-PD based devices can have applications in generation and optical control of GHz low-phase noise oscillators, clock recovery systems, and fiber optic enabled radio frequency communication systems.

2016

Simulation and Experimental Evaluation of a Resonant Magnetic Wireless Power Transfer System for Seawater Operation

Authors
Pereira, MR; Santos, HM; Pessoa, LM; Salgado, HM;

Publication
OCEANS 2016 - SHANGHAI

Abstract
The use of high efficiency resonant coupling wireless power systems for subsea operations is here considered for the charging of autonomous underwater vehicles. In this paper, two architectures based on two different inductors are analysed for their potential as resonant wireless power couplers. Both systems were designed and optimised through electromagnetic 3D simulations, upon which two prototypes were constructed and measured. Efficiencies as high as 75% for distances up to 5 cm were achieved on experimental testing.

2013

Wireless Interrogation of an Optically Modulated Resonant Tunnelling Diode Oscillator

Authors
Cantu, HI; Salgado, H; Romeira, B; Kelly, AE; Ironside, CN; Figueiredo, JML;

Publication
MICROWAVE AND OPTICAL TECHNOLOGY LETTERS

Abstract
In this work, a resonant tunnelling diode-photo-detector based microwave oscillator is amplitude modulated using an optical signal. The modulated free running oscillator is coupled to an antenna and phase locked by a wireless carrier that allows remote extraction of the information contained in the modulation. An off-the-shelf demodulator has been used to recover the envelope of the baseband data originally contained in the optical signal. Data were successfully transmitted at a rate of 1 MSym/s with a bit error rate below 10-6. (c) 2013 Wiley Periodicals, Inc. Microwave Opt Technol Lett 55:1728-1730, 2013

2015

Phase Conjugated Twin Waves Based Transmission in Few Modes Fibers

Authors
Tavares, JS; Pessoa, LM; Salgado, HM;

Publication
2015 17th International Conference on Transparent Optical Networks (ICTON)

Abstract
Spatial division multiplexing (SDM) is seen as an effective technique to overcome the present limits of fiber capacity and satisfy future bandwidth requirements, by substantially increasing optical transport capacities [1-5]. Similarly to single-mode fiber based modern telecommunication systems, the nonlinear penalties will eventually become the ultimate limiting factor in SDM systems, arising from crosstalk effects in multimode core or few mode fibers, which generate intramodal and intermodal nonlinearities. Here we explore the concept of conjugated twin waves in few mode fibers based SDM optical systems, as a means to overcome these nonlinear impairments and assess the performance of SDM systems for different PCTW configurations and coupling regimes. Our numerical simulation results show that this technique is an effective means to overcome the nonlinear impairments arising in mode division multiplexed systems, improving performance by up to 10 dB, in the strong coupling regime.

2013

Developing aircraft photonic networks for airplane systems

Authors
White, HJ; Brownjohn, N; Baptista, J; Foucal, V; Salgado, H; Clausen, A; Pistner, T; Farries, M; Gauchy, S; Kopacek, I; Lee, A; Napier, B; Traversone, M; Vincent, J; Zimmermann, A;

Publication
Proceedings of SPIE - The International Society for Optical Engineering

Abstract
Achieving affordable high speed fiber optic communication networks for airplane systems has proved to be challenging. In this paper we describe a summary of the EU Framework 7 project DAPHNE (Developing Aircraft Photonic Networks). DAPHNE aimed to exploit photonic technology from terrestrial communications networks, and then develop and optimize aircraft photonic networks to take advantage of the potential cost savings. The main areas of emphasis were on: multiplexing networks; providing standard components; simplifying installation; and reducing through life support costs. DAPHNE (fifteen partners from seven nations) finished in February 2013; and was supported by the European Commission?s Seventh Framework Programme, although the consortium members are continuing with in-house developments. © 2013 SPIE.

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