PAPERS ON JOURNALS (with referee)
COPYRIGHT WARNING
The papers contained in this webpage are included by the contributing authors as a mechanism to ensure timely dissemination of scholarly/technical information on a non-commercial basis. Copyright and all rights therein are maintained by the authors, despite the fact they have offered this information electronically. It is understood that all individuals copying this information will adhere to the terms/ constraints invoked by each author's copyright. These papers may not be copied for commercial redistribution, republication, or dissemination without the explicit permission of the authors. Some of these papers have been published by OSA, SPIE, IEEE, IOP, AIP, IEE, Elsevier e Taylor&Francis and have their own Copyright. Personal use of this material is permitted. However, permission to reprint/republish this material for advertising or promotional purposes or for creating new collective works for resale or redistribution to servers or lists, or to reuse any copyrighted component of this work in other works, must be obtained from the publishers.

Please contact
alobo@ufp.edu.pt if you have any questions regarding these publications.
A.B. Lobo Ribeiro, S.F.O. Silva, O. Frazão and J.L. Santos, "Bi-Core Optical Fibre for Sensing of Temperature, Strain and Torsion", Measur. Sci. & Technol. 30 (3), 035104 (2019)
A.B. Lobo Ribeiro and J. Salgado-Borges, "Refractive Laser Surgery: What's New?", Oftalmologia, Portuguese Society of Ophthalmology Magazine, vol.43, No.1,pp.1-7 (2019)
P. Roriz, O. Frazão, A.B. Lobo Ribeiro, J.L. Santos and J.A. Simões, "Review of fiber-optic pressure sensors for biomedical and biomechanical applications", J. Biomedical Optics 18(5), 050903 (2013).
R.M. Silva, A. Layeghi, M.I. Zibaii, H. Latifi, J.L. Santos, A.B. Lobo Ribeiro and O. Frazão, "Interrogation Sensing System Based on "Figure-of-Eight" Fiber Loop Mirror Configuration", IEEE Photon. Technol. Lett. 25(8), 745-748 (2013)
M.R.N. Avanaki, A. Bradu, I. Trifanov, A.B. Lobo Ribeiro, A. Hojjatoleslami and A. Gh. Podoleanu, ""Algorithm for Excitation Optimization of Fabry–Pérot Filters Used in Swept Sources", IEEE Photon. Technol. Lett. 25 (5), 472-275 (2013).
R. M. Silva, J. M. Baptista, J. L. Santos, A. B. Lobo Ribeiro, F. M. Araújo, L. A. Ferreira and O. Frazão, “A Simple, Self-Referenced, Intensity-Based Optical Fibre Sensor for Temperature Measurement”, Opt. Commun. 291, 215-218 (2013)
R.M. Silva, A.B. Lobo Ribeiro and O. Frazão, "Temperature-Independent Torsion Sensor Based on "Figure-of-Eight" Fiber Loop Mirror", Photonic Sensors 10 (1), 52-56 (2013).
R. Silva, H. Martins, I. Nascimento, J.M. Baptista, A.B. Lobo Ribeiro, J.L. Santos, P. Jorge and O. Frazão, “Optical Current Sensors for High Power Systems: A Review”, Appl. Sci. 2(3), 602-628 (2012).
O. Frazão, R.M. Silva, M.S. Ferreira, J.L. Santos and A.B. Lobo Ribeiro, "Suspended-Core Optical Fibers for Sensing Applications", Photonics Sensors J. 2 (2), 118-126 (2012).
L.M.N. Amaral, O. Frazão, J.L. Santos and A.B. Lobo Ribeiro, "Fiber Optic Inclinometer Based on Taper Michelson Interferometer", IEEE Sensors J. 11 (9), 1811-1814 (2011).
I. Trifanov, A. Bradu, L. Neagu, P. Guerreiro, A. B. Lobo Ribeiro and A. Gh. Podoleanu, “Experimental method to find the optimum excitation waveform to quench mechanical resonances of Fabry-Pérot tunable filters used in swept sources”, IEEE Photon. Technol. Lett. 23 (12), 825-827 (2011).
I. Trifanov, P. Caldas, L. Neagu, R. Romero, M. O. Berendt, J. R. Salcedo, A. Gh. Podoleanu and A. B. Lobo Ribeiro, "Combined Neodymium-Ytterbium Doped ASE Fiber Optic Source for Optical Coherence Tomography Applications", IEEE Photon. Technol. Lett. 23 (1), 21-23 (2011).
J.L. Santos and A.B. Lobo Ribeiro, "Optical Fibre Sensors: A Route from University of Kent to Portugal", (invited paper) Photonics Sensors J. 1(2), 118-139 (2011).
A.B. Lobo Ribeiro, N. Eira, J.M. Sousa, P.T. Guerreiro and J.A.R. Salcedo, "Multi-Point Fibre Optic Hot-Spot Network Integrated Into a High Power Transformer", IEEE Sensors J. 8(7), 1264-1267 (2008).
A.B. Lobo Ribeiro, J.L. Santos, J.M. Baptista, L.A. Ferreira, F.M. Araújo and A.M.P.P. Leite, "Optical Fiber Sensor Technology in Portugal", (invited paper) Fiber and Integrated Optics 24, 171-199 (2005)
R.L. Heredero, S. Martin, R.F. Caleya, A.B. Lobo Ribeiro, F.M. Araujo, L.A. Ferreira, J.L. Santos and H. Guerrero, "Study of the Optical Properties of Photopolymer Fabry-Perot Microcavities by Dual-Wavelength Fibre Optic Architecture", Meas. Sci. Technol. 13, 1094-1099 (2002).
P.A.S. Jorge, P. Caldas, L.A. Ferreira, A.B. Lobo Ribeiro,J.L. Santos and F. Farahi, "Electrical Current Metering With a Dual Interferometric Configuration and Serrodyne Signal Processing", Meas. Sci. Technol. 13, 533-538 (2002).
P.M. Cavaleiro, F.M. Araújo and A.B. Lobo Ribeiro, "Metal-Coated Fibre Bragg Grating Sensor for Electric Current Metering", Electron. Lett. 34, 1133-1135 (1998).
A.B. Lobo Ribeiro, "Sensores Interferométricos em Fibra Óptica", Gazeta de Física 21, nº1, 16-21 (1998).
L.A. Ferreira, A.B. Lobo Ribeiro, J.L. Santos and F. Farahi, "Simultaneous Displacement and Temperature Sensing Using a White Light Interrogated Low Finesse Cavity In-Line With a Fibre Bragg Grating", Smart Mater. Struct. 7, 189-198 (1998).
A.B. Lobo Ribeiro, L.A. Ferreira, J.L. Santos and D.A. Jackson, "Analysis of the Reflective-Matched Fibre Bragg Grating Sensing Interrogation Scheme", Appl. Opt. 36, 934-939 (1997).
L.A. Ferreira, A.B. Lobo Ribeiro, J.L. Santos and F. Farahi, "Simultaneous Measurement of Displacement and Temperature Using a Low Finesse Cavity and a Fibre Bragg Grating", IEEE Photon. Technol. Lett. 8, 1519-1521 (1996).
Y.J. Rao, A.B. Lobo Ribeiro, L. Zhang, I. Bennion and D.A. Jackson, "Simultaneous Spatial, Time and Wavelength Division Multiplexed In-Fibre Grating Sensing Network", Opt. Commun. 125, 53 (1996).
A.B. Lobo Ribeiro, L.A. Ferreira, M. Tsvetkov and J.L. Santos, "All-Fibre Interrogation Technique for Fibre Bragg Sensors Using a Biconical Fibre Filter", Electron. Lett. 32, 382-383 (1996).
A.B. Lobo Ribeiro, Y.J. Rao, L. Zhang, I. Bennion and D.A. Jackson, "Time and Spatial Multiplexing Tree Topology for Fibre Optic Bragg Grating Sensors With Interferometric Wavelength-Shift Detection", Appl. Opt. 35, 2267-2273 (1996).
A.B. Lobo Ribeiro, R.F. Caleya and J.L. Santos, "General Error Function of Synthetic-Heterodyne Signal Processing of Interferometric Fibre Optic Sensors", Int. J. Optoelectronics 10, 205-209 (1995).
[9]
Y.J. Rao, A.B. Lobo Ribeiro, D.A. Jackson, L. Zhang and I. Bennion, "Combined Spatial and Time Division Multiplexing Scheme for Fibre Gratings Sensors With Drift-Compensated Phase-Sensitive Detection", Opt. Lett. 20, 2149-2151 (1995).
[8]
A.B. Lobo Ribeiro, R.F. Caleya and J.L. Santos, "Progressive Ladder Network Topology Using Interferometric and Intensity Fibre Optic Based Sensors", Appl. Opt. 34, 6481-6488 (1995).
[7]
P.M. Cavaleiro, A.B. Lobo Ribeiro and J.L. Santos, "Referencing Technique for Intensity-Based Sensors Using Fibre Optic Bragg Gratings", Electron. Lett. 31, 392-394 (1995).
[6]
G.P. Brady, S. Hope, A.B. Lobo Ribeiro, D.J. Webb, L. Reekie, J.L. Archambault and D.A. Jackson, "Demultiplexing of Fibre Bragg Grating Temperature and Strain Sensors", Opt. Commun. 111, 51-54 (1994).
[5]
A.B. Lobo Ribeiro, Y.J. Rao and D.A. Jackson, "Multiplexing Interrogation of Interferometric Sensors Using Dual Multimode Laser Diode Sources and Coherence Reading", Opt. Commun. 109, 400-404 (1994).
[4]
O.G. Okhotnikov, A.B. Lobo Ribeiro and J.R. Salcedo, "All-Fibre Travelling-Wave Laser With Nonreciprocal Ring Configuration", Appl. Phys. Lett. 63, 2726-2728 (1993).
[3]
D.A. Jackson, A.B. Lobo Ribeiro, L. Reekie and J.L. Archambault, "Simple Multiplexing Scheme for Fibre Optic Grating Sensor Network", Opt. Lett. 18, 1192-1194 (1993).
[2]
A.B. Lobo Ribeiro and D.A. Jackson, "Low Coherence Fibre Optic System for Remote Sensors Illuminated by a 1.3 mm Multimode Laser Diode", Rev. Sci. Instrum. 64, 2974-2977 (1993).
[1]
A.B. Lobo. Ribeiro, J.L. Santos and D.A. Jackson, "Large Range Coherence Tuned Fibre Optic Interferometric System for Application in Accelerometers", Rev. Sci. Instrum. 63, 3586-3589 (1992).