Carlos D. Llorens
Polytechnic University of Valencia
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Featured researches published by Carlos D. Llorens.
Sensors | 2012
M. Ardid; J.A. Martínez-Mora; M. Bou-Cabo; G. Larosa; Silvia Adrián-Martínez; Carlos D. Llorens
In this paper acoustic transmitters that were developed for use in underwater neutrino telescopes are presented. Firstly, an acoustic transceiver has been developed as part of the acoustic positioning system of neutrino telescopes. These infrastructures are not completely rigid and require a positioning system in order to monitor the position of the optical sensors which move due to sea currents. To guarantee a reliable and versatile system, the transceiver has the requirements of reduced cost, low power consumption, high pressure withstanding (up to 500 bars), high intensity for emission, low intrinsic noise, arbitrary signals for emission and the capacity of acquiring and processing received signals. Secondly, a compact acoustic transmitter array has been developed for the calibration of acoustic neutrino detection systems. The array is able to mimic the signature of ultra-high-energy neutrino interaction in emission directivity and signal shape. The technique of parametric acoustic sources has been used to achieve the proposed aim. The developed compact array has practical features such as easy manageability and operation. The prototype designs and the results of different tests are described. The techniques applied for these two acoustic systems are so powerful and versatile that may be of interest in other marine applications using acoustic transmitters.
Journal of Instrumentation | 2012
Carlos D. Llorens; M. Ardid; T. Sogorb; M. Bou-Cabo; J.A. Martínez-Mora; G. Larosa; Silvia Adrián-Martínez
We describe the sound emission board proposed for installation in the acoustic positioning system of the future KM3NeT underwater neutrino telescope. The KM3NeT European consortium aims to build a multi-cubic kilometre underwater neutrino telescope in the deep Mediterranean Sea. In this kind of telescope the mechanical structures holding the optical sensors, which detect the Cherenkov radiation produced by muons emanating from neutrino interactions, are not completely rigid and can move up to dozens of meters in undersea currents. Knowledge of the position of the optical sensors to an accuracy of about 10 cm is needed for adequate muon track reconstruction. A positioning system based on the acoustic triangulation of sound transit time differences between fixed seabed emitters and receiving hydrophones attached to the kilometre-scale vertical flexible structures carrying the optical sensors is being developed. In this paper, we describe the sound emission board developed in the framework of KM3NeT project, which is totally adapted to the chosen FFR SX30 ultrasonic transducer and fulfils the requirements imposed by the collaboration in terms of cost, high reliability, low power consumption, high acoustic emission power for short signals, low intrinsic noise and capacity to use arbitrary signals in emission mode.
ad hoc networks | 2014
Silvia Adrián-Martínez; M. Bou-Cabo; Ivan Felis; Carlos D. Llorens; J.A. Martínez-Mora; María Saldaña; M. Ardid
The study and application of signal detection techniques based on cross-correlation method for acoustic transient signals in noisy and reverberant environments are presented. These techniques are shown to provide high signal to noise ratio, good signal discernment from very close echoes and accurate detection of signal arrival time. The proposed methodology has been tested on real data collected in environments and conditions where its benefits can be shown. This work focuses on the acoustic detection applied to tasks of positioning in underwater structures and calibration such those as ANTARES and KM3NeT deep-sea neutrino telescopes, as well as, in particle detection through acoustic events for the COUPP/PICO detectors. Moreover, a method for obtaining the real amplitude of the signal in time (voltage) by using cross correlation has been developed and tested and is described in this work.
Sensors | 2016
María Saldaña; Carlos D. Llorens; Ivan Felis; J.A. Martínez-Mora; M. Ardid
A short bipolar pressure pulse with “pancake” directivity is produced and propagated when an Ultra-High Energy (UHE) neutrino interacts with a nucleus in water. Nowadays, acoustic sensor networks are being deployed in deep seas to detect this phenomenon as a first step toward building a neutrino telescope. In order to study the feasibility of the method, it is critical to have a calibrator that is able to mimic the neutrino signature. In previous works the possibility of using the acoustic parametric technique for this aim was proven. In this study, the array is operated at a high frequency and, by means of the parametric effect, the emission of the low-frequency acoustic bipolar pulse is generated mimicking the UHE neutrino acoustic pulse. To this end, the development of the transducer to be used in the parametric array is described in all its phases. The transducer design process, the characterization tests for the bare piezoelectric ceramic, and the addition of backing and matching layers are presented. The efficiencies and directivity patterns obtained for both primary and parametric beams confirm that the design of the proposed calibrator meets all the requirements for the emitter.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2011
M. Ardid; M. Bou-Cabo; F. Camarena; V. Espinosa; G. Larosa; Carlos D. Llorens; J.A. Martínez-Mora
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2010
M. Ardid; M. Bou-Cabo; F. Camarena; V. Espinosa; G. Larosa; Carlos D. Llorens; J.A. Martínez-Mora
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2013
G. Larosa; M. Ardid; Carlos D. Llorens; M. Bou-Cabo; J.A. Martínez-Mora; Silvia Adrián-Martínez
european conference on software architecture | 2015
María Saldaña; Carlos D. Llorens; Ivan Felis; J.A. Martínez-Mora; Miquel Ardid
Physics Procedia | 2015
María Saldaña; Silvia Adrián-Martínez; M. Bou-Cabo; Ivan Felis; G. Larosa; Carlos D. Llorens; J.A. Martínez-Mora; M. Ardid
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2013
Silvia Adrián-Martínez; M. Ardid; M. Bou-Cabo; G. Larosa; Carlos D. Llorens; J.A. Martínez-Mora