Rubén Ruiz-Lombera scite author profile

We demonstrate a Brillouin optical frequency-domain reflectometry (BOFDR) technique, which can measure the strain and/or temperature along an optical fiber with one-end access, by detecting the spontaneous Brillouin scattering from a sinusoidally modulated pump light. Compared to the Brillouin optical frequency-domain analysis (BOFDA), we show that BOFDR measurements are free from the distorting components related to acoustic wave modulation, thus simplifying data processing.

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Electro-optic correlator for large-format microwave interferometry: Up-conversion and correlation stages performance analysis

Ortiz

Casas

Ruiz-Lombera³

et al. 2017

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In this paper, a microwave interferometer prototype with a near-infra-red optical correlator is proposed as a solution to get a large-format interferometer with hundreds of receivers for radio astronomy applications. A 10 Gbits/s Lithium Niobate modulator has been tested as part of an electro-optic correlator up-conversion stage that will be integrated in the interferometer prototype. Its internal circuitry consists of a single-drive modulator biased by a SubMiniature version A (SMA) connector allowing to up-convert microwave signals with bandwidths up to 12.5 GHz to the near infrared band. In order to characterize it, a 12 GHz tone and a bias voltage were applied to the SMA input using a polarization tee. Two different experimental techniques to stabilize the modulator operation point in its minimum optical carrier output power are described. The best achieved results showed a rather stable spectrum in amplitude and wavelength at the output of the modulator with an optical carrier level 23 dB lower than the signal of interest. On the other hand, preliminary measurements were made to analyze the correlation stage, using 4f and 6f optical configurations to characterize both the antenna/fiber array configuration and the corresponding point spread function.

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Structural Damage Identification in an Aluminum Composite Plate by Brillouin Sensing

Minardo¹,

Coscetta²,

Bernini

et al. 2015

IEEE Sensors J.

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Ultrahigh Temperature Raman-Based Distributed Optical Fiber Sensor With Gold-Coated Fiber

Laarossi

Ruiz-Lombera

Quintela

et al. 2017

IEEE J. Select. Topics Quantum Electron.

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An ultra-high temperature distributed sensor based on a Raman Optical-Time-Domain-Reflectometry (ROTDR) and two types of fibers: a standard multimode fiber and multimode gold-coated fiber are experimentally validated in this paper. A calibration technique has been implemented to correct the dynamic variation of the optical loss in the gold-coated fiber. Distributed temperature measurements up to 600 • C have been carried out.

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