Journal papers
1.
L. Schenato, “A Review of Distributed Fibre Optic Sensors for Geo-Hydrological Applications,” Applied Sciences 7(9), 896 (2017) [http://doi.org/10.3390/app7090896].
1.
A. Dominguez-Lopez et al., “Resolving 1 million sensing points in an optimized differential time-domain Brillouin sensor,” Optics Letters 42(10), 1903 (2017) [http://doi.org/10.1364/OL.42.001903].
1.
J. Pastor-Graells et al., “SNR enhancement in high-resolution phase-sensitive OTDR systems using chirped pulse amplification concepts,” Optics Letters 42(9), 1728 (2017) [http://doi.org/10.1364/OL.42.001728].
1.
J. Tejedor et al., “A Novel Fiber Optic Based Surveillance System for Prevention of Pipeline Integrity Threats,” Sensors 17(2), 355 (2017) [http://doi.org/10.3390/s17020355].
1.
A. Garcia-Ruiz et al., “Distributed photothermal spectroscopy in microstructured optical fibers: towards high-resolution mapping of gas presence over long distances,” Optics Express 25(3), 1789 (2017) [http://doi.org/10.1364/OE.25.001789].
1.
M. R. Fernández-Ruiz et al., “Phase-sensitive OTDR probe pulse shapes robust against modulation-instability fading,” Opt. Lett., OL 41(24), 5756–5759 (2016) [http://doi.org/10.1364/OL.41.005756].
1.
H. F. Martins et al., “Real time dynamic strain monitoring of optical links using the backreflection of live PSK data,” Opt. Express, OE 24(19), 22303–22318 (2016) [http://doi.org/10.1364/OE.24.022303].
1.
A. Lopez-Gil et al., “Evaluation of the accuracy of BOTDA systems based on the phase spectral response,” Optics Express 24(15), 17200 (2016) [http://doi.org/10.1364/OE.24.017200].
1.
F. Gabrieli and F. Ceccato, “Impact of Dry Granular Flows on a Rigid Wall: Discrete and Continuum Approach,” Procedia Engineering 158, 152–157 (2016) [http://doi.org/10.1016/j.proeng.2016.08.421].

 

Conference papers
1.
L. Schenato et al., “High density distributed strain sensing of landslide in large scale physical model,” in OFS 25, Y. Chung et al., Eds., p. 1032364, SPIE, Jeju, Republic of Korea (2017) [http://doi.org/10.1117/12.2263284].
1.
M. Gonzalez-Herraez et al., “Chirped-pulse phase-sensitive reflectometry: hearing behind the walls with high fidelity,” in OFS 25, Y. Chung et al., Eds., p. 1032302, SPIE, Jeju, Republic of Korea (2017) [http://doi.org/10.1117/12.2272461].
1.
A. Garcia-Ruiz et al., “Distributed photothermal measurements of gas presence along holey optical fibers,” in OFS 25, Y. Chung et al., Eds., p. 1032361, SPIE, Jeju, Republic of Korea (2017) [http://doi.org/10.1117/12.2263210].
1.
H. F. Martins et al., “Code length limit in phase-sensitive OTDR using ultralong (>1M bits) pulse sequences due to fading induced by fiber optical path drifts,” in OFS 25, Y. Chung et al., Eds., p. 103235W, SPIE, Jeju, Republic of Korea (2017) [http://doi.org/10.1117/12.2263117].
1.
J. Pastor-Graells et al., “Impact of the laser phase noise on chirped-pulse phase-sensitive OTDR,” in OFS 25, Y. Chung et al., Eds., p. 103238T, SPIE, Jeju, Republic of Korea (2017) [http://doi.org/10.1117/12.2266870].
1.
J. Pastor-Graells et al., “20 dB SNR enhancement in phase-sensitive OTDR using pulse stretching and recompression,” in OFS 25, Y. Chung et al., Eds., p. 103230R, SPIE, Jeju, Republic of Korea (2017) [http://doi.org/10.1117/12.2265605].
1.
J. Tejedor et al., “Towards detection of pipeline integrity threats using a smart fiber optic surveillance system: PIT-STOP project blind field test results,” in OFS 25, Y. Chung et al., Eds., p. 103231K, SPIE, Jeju, Republic of Korea (2017) [http://doi.org/10.1117/12.2263357].
1.
A. Galtarossa and L. Palmieri, “Distributed polarization sensing,” in OFS 25, Y. Chung et al., Eds., p. 1032318, SPIE, Jeju, Republic of Korea (2017) [http://doi.org/10.1117/12.2272460].
1.
M. R. Fernández-Ruiz et al., “Impact of the probe pulse shape on the performance of phase-sensitive optical time-domain reflectometry sensors,” in OFS 25, p. 103236P, SPIE, Jeju, Republic of Korea (2017) [http://doi.org/10.1117/12.2263848].
1.
J. P. Aguilar-López and T. Bogaard, “Preferential flow influence on the stability assessment of a partially saturated riverine dike via dual permeability model,” in EGU General Assembly Conference Abstracts 19, p. 17639, Vienna (A) (2017).
1.
luca schenato et al., “FIBRE OPTIC SENSORS IN GEOTECHNICAL APPLICATIONS,” in FOTONICA 2017, AIET, Padova (Italy) (2017).
1.
J. P. Aguilar-López and T. Bogaard, “Dual permeability FEM models for distributed fiber optic sensors development,” in EGU General Assembly Conference Abstracts 19, p. 17621, Vienna (A) (2017).
1.
M. G. Herraez et al., “Chirped-pulse Phase-sensitive Optical Time Domain Reflectometry,” in Asia Communications and Photonics Conference, pp. AF1A-1, Optical Society of America (2016).
1.
L. Schenato et al., “Optical fiber load sensor based on a semi-auxetic structure: a proof of concept,” in European Workshop on Optical Fibre Sensors 9916, pp. 99160N-99160N – 4, SPIE, Limerick, Ireland (2016) [http://doi.org/10.1117/12.2236871].
1.
L. Schenato et al., “Semi-auxetic Optical Fibre Distributed Load Sensor,” in Asia-Pacific Optical Sensors Conference, pp. Tu3A-2, Optical Society of America (2016).