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30 results on '"Cavallaro, S."'

1. Preliminary tests of CHIMERA silicon detectors in reverse mode

Author

Amorini, F., Anzalone, A., Boiano, C., Cardella, G., Castoldi, A., Cavallaro, S., Filippo, De, Geraci, E., Grassi, E., Guazzoni, L., Guazzoni, C., Guidara, La, Lombardo, E., Moser, I., Pagano, S., Pirrone, A., Politi, S., Porto, G., Riccio, F., Rizzo, Francesca, Russotto, P., Zetta, L., and Politi, Giuseppe

Subjects
Physics, Ion beam, sezele, Physics::Instrumentation and Detectors, business.industry, Detector, Particle detector, Nuclear physics, Time of flight, Optics, Nuclear electronics, Rise time, business, Beam (structure), Energy (signal processing)
Abstract

The design of modern multi-detector arrays for Intermediate Energy Nuclear Physics experiments has to face the problem of the improvement of the Charge and Mass Identification of Heavy and Light Charged Products. We are fixing our attention to the products stopping in the silicon detector that can be identified in mass by measuring Energy and Time of Flight - (E, ToF) technique - and in charge by measuring the Energy and the Rise Time of the signal - (E, RT) technique With this last technique, one of the points of largest physical interest is the minimum energy of the reaction products that allows charge identification. To this purpose we have done some tests, using the ion beam of the Superconducting Cyclotron of Laboratori Nazionali del Sud in Catania, aimed to evaluate the performance of the CHIMERA Silicon detectors in reverse mounting. In this paper we will discuss the experimental results obtained in reverse mounting in a true beam experiment and we will critically analyze the advantages and drawbacks of reverse mounting w.r.t. front mounting, correlating the measured detector properties in terms of physical properties and biasing conditions of the detector itself.

Published
2009

2. Preliminary tests of CHIMERA silicon detectors in reverse mode

Author

Amorini, F., primary, Anzalone, A., additional, Boiano, C., additional, Cardella, G., additional, Castoldi, A., additional, Cavallaro, S., additional, De Filippo, E., additional, Geraci, E., additional, Grassi, L., additional, Guazzoni, C., additional, Guazzoni, P., additional, La Guidara, E., additional, Lombardo, I., additional, Moser, S., additional, Pagano, A., additional, Pirrone, S., additional, Politi, G., additional, Porto, F., additional, Riccio, F., additional, Rizzo, F., additional, Russotto, P., additional, and Zetta, L., additional

Published
2009
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3. Isotopic Identification in Chimera Detector: Recent Results and Perspectives

Author

Pagano, A., primary, Agodi, C., additional, Alba, R., additional, Amorini, F., additional, Anzalone, A., additional, Arena, N., additional, Auditore, L., additional, Bassini, R., additional, Boiano, C., additional, Cali, C., additional, Campagna, V., additional, Cardella, G., additional, Cavallaro, S., additional, Chatterjee, M. B., additional, D'Andrea, M., additional, De Filippo, E., additional, Di Stefano, A., additional, Emanuele, U., additional, Fichera, F., additional, Giustolisi, F., additional, Geraci, E., additional, Giudice, N., additional, Grimaldi, A., additional, Guardone, N., additional, Guazzoni, P., additional, La Guidara, E., additional, Lanzano, G., additional, Lanzalone, G., additional, Maiolino, C., additional, Nicotra, D., additional, Papa, M., additional, Pirrone, S., additional, Politi, G., additional, Porto, F., additional, Rapicavoli, C., additional, Rizza, G., additional, Rizzo, F., additional, Russo, S., additional, Russotto, P., additional, Sacca, G., additional, Salomone, S., additional, Santonocito, D., additional, Stiro, M., additional, Trimarchi, M., additional, Urso, S., additional, and Zetta, L., additional

Published
2006
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4. A modular NIM electronics for Pulse Shape method with the large area n-planar silicon detectors of the 4π CHIMERA

Author

Bassini, R., primary, Boiano, C., additional, Pagano, A., additional, Amorini, F., additional, Anzalone, A., additional, Auditore, L., additional, Cardella, G., additional, Cavallaro, S., additional, Chatterjee, M.B., additional, D'Andrea, M., additional, De Filippo, E., additional, Giudice, N., additional, Grimaldi, A., additional, Guazzoni, P., additional, La Guidara, E., additional, Lanzano, G., additional, Lanzalone, G., additional, Maiolino, C., additional, Nicotra, D., additional, Papa, M., additional, Pirrone, S., additional, Politi, G., additional, Porto, F., additional, Pullia, A., additional, Rizzo, F., additional, Russo, S., additional, Russotto, P., additional, Sacca, G., additional, Sassi, M., additional, Stiro, M., additional, Schroder, W.U., additional, Trifiro, A., additional, Toke, J., additional, Trimarchi, M., additional, Zetta, L., additional, and Urso, S., additional

Published
2006
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5. Digital pulse-shape acquisition from CHIMERA telescopes

Author

Alderighi, M., primary, Anzalone, A., additional, Auditore, L., additional, Arena, N., additional, Bassini, R., additional, Boiano, C., additional, Brambilla, S., additional, Cordelia, G., additional, Cavallaro, S., additional, D'Andrea, M., additional, De Filippo, E., additional, Geraci, E., additional, Ghilardi, D., additional, Giustolisi, F., additional, Grzeszczuk, A., additional, Guazzoni, P., additional, Laguidara, E., additional, Lanzano, G., additional, Lanzalone, G., additional, Nicotra, D., additional, Opichal, P., additional, Paduszynski, T., additional, Pagano, A., additional, Papa, M., additional, Pirrone, S., additional, Politi, G., additional, Porto, F., additional, Rosato, E., additional, Russo, S., additional, Sacca, G., additional, Sassi, M., additional, Sechi, G., additional, Trifiro, A., additional, Trimarchi, M., additional, Urso, S., additional, Vigilante, M., additional, and Zetta, L., additional

Published
2003
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8. Particle identification with the 4π CHIMERA detector array.

Author

Politi, G., Amorini, F., Anzalone, A., Auditore, L., Bassini, R., Boiano, C., Blicharska, J., Campagna, V., Cardella, G., Cali, C., Cavallaro, S., D'Andrea, M., De Filippo, E., Fichera, F., Geraci, E., Giudice, N., Giustolisi, F., Guardone, N., Grimaldi, A., and Grzeszczuk, A.

Published
2005
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12. Digital Signal Processing for Mass Identification in a 4π-Detector, Using Time of Flight Measurement.

Author

Amorini, F., Anzalone, A., Bassini, R., Boiano, C., Cardella, G., Cavallaro, S., De Filippo, E., Guazzoni, P., La Guidara, E., Lanzanô, G., Pagano, A., Papa, M., Pirrone, S., Politi, G., Porto, F., Riccio, F., Rizzo, F., Russo, S., Russotto, P., and Zetta, L.

Subjects
DIGITAL signal processing, DETECTORS, TIME-of-flight mass spectrometry, NUCLEAR physics, ANALOG-to-digital converters, DATA analysis, ALGORITHMS, NUCLEAR reactions
Abstract

CHIMERA is the only 4π-multidetector, used in intermediate nuclear physics experiments, able to perform mass identification of the reaction products. To this purpose, it employs time of flight measurements done with traditional time to digital converters. In order to improve the resolution in mass identification, we have applied digital signal processing to time of flight measurements. This paper presents the methodology for data analysis, the adopted algorithms and the results obtained at different sampling frequencies (mass identification up to A = 33 for the reaction products produced by a 20.5 MeV/u 20Ne beam on 27 Al target). [ABSTRACT FROM AUTHOR]

Published
2008
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13. On-Board Digital Signal Processing for 4 π-Detector Large-Area Telescopes.

Author

Amorini, F., Anzalone, A., Cardella, G., Cavallaro, S., De Filippo, E., Guazzoni, P., La Guidara, B., Lanzanò, G., Pagano, A., Pirrone, S., Politi, G., Porto, F., Riccio, F., Rizzo, F., Russo, S., Russotto, P., and Zetta, L.

Subjects
DIGITAL signal processing, OPTICAL instruments, ASTRONOMICAL instruments, TELESCOPES, DETECTORS, ENGINEERING instruments, DIGITAL communications, NUCLEAR physics, SILICON diodes
Abstract

The digital pulse shape data acquisition (DAQ) system used by the large area telescopes of the 4π-multidetector CHIMERA requires transferring large amount of data to the computer. This is necessary so that the same information can be extracted from the detector pulses as in previous analog based systems. To overcome this problem, we have used a sampling ADC-board equipped with two TigerSHARC digital signal processors. The board receives the data and reconstructs the event parameters online. The data volume is significantly. reduced by transmitting to the DAQ only the reconstructed event parameters. [ABSTRACT FROM AUTHOR]

Published
2007
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14. Charge Identification in Large Area Planar Silicon Detectors, Using Digital Pulse Shape Acquisition.

Author

Alderighi, M., Amorini, F., Anzalone, A., Bassini, R., Boiano, C., Cardella, G., Cavallaro, S., DeFilippo, E., Guazzoni, P., LaGuidara, E., Lanzanò, G., Lanzalone, G., Maiolino, C., Pagano, A., Papa, M., Pirrone, S., Politi, G., Porto, F., Rizzo, F., and Russo, S.

Subjects
DIGITAL signal processing, ELECTRONIC pulse techniques, TELESCOPES, PHYSICS instruments, SILICON, DETECTORS, CYCLOTRONS, SUPERCONDUCTORS
Abstract

The capability of digital pulse shape technique to acquire data from CHIMERA detection cells (Si-CsI(Tl) telescopes) has been evidenced in our previous works. We have now applied this technique to the charge discrimination of the products stopped in the silicon detectors. Large area totally depleted CHIMERA planar silicon detectors (5 cm × 5 cm area, 300 µm thick) in both rear and front side injection have been used. In preliminary tests full charge identification for the reaction products up to Z = 11 have been obtained for products both crossing (ΔE-E technique) and stopping in the silicon detector, using a 21 MeV/u 20Ne beam at the LNS Superconducting Cyclotron in Catania. The quality of the obtained results clearly indicates that the digital signal processing approach is able to give excellent results in this application, too. [ABSTRACT FROM AUTHOR]

Published
2006
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15. PRESTO: A Computational and Storage Unit for CHIMERA DAQ.

Author

Alderighi, M., Amorini, F., Anzalone, A., Cardella, G., Cavallaro, S., DeFilippo, E., Ghilardi, D., Guazzoni, P., LaGuidara, E., Lanzanó, G., Lanzalone, G., Maiolino, C., Pagano, A., Papa, M., Pirrone, S., Politi, G., Porto, F., Rizzo, F., Russo, S., and Russotto, P.

Subjects
DETECTORS, ALGORITHMS, AUTOMATION, ETHERNET, ACQUISITION of databases, LIBRARY acquisitions
Abstract

We have designed, built, and tested an on-line pre- analysis and data-storage unit for the data acquisition system of the 4π-detector CHIMERA. The unit uses special algorithms to perform particle identification and automatic peak detection. It tags in charge each event and stores the results on external unit, together with the raw data. It consists of two commercial 2 GHz workstations connected together through 1 Gb/s Ethernet boards and to the data acquisition system through a 100 Mb/s Ethernet. [ABSTRACT FROM AUTHOR]

Published
2005
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16. Particle Identification via Pulse Shape Analysis for Large-Area Silicon Detectors of the CHIMERA Array.

Author

Alderighi, M., Amorini, F., Anzalone, A., Arena, N., Auditore, L., Bassini, R., Boiano, C., Cardella, G., Cavallaro, S., Chatterjee, M. B., D'Andrea, M., de Filippo, E., Fichera, F., Geraci, E., Giustolisi, F., Guardone, N., Grimaldi, A., Guazzoni, P., Guidara, E. La, and Lanzanò, G.

Subjects
DETECTORS, NUCLEAR reactions, COLLISIONS (Nuclear physics), SILICON, SILICON diodes, TIME-of-flight mass spectrometry
Abstract

Mass and atomic-number identification (ID) of reaction products is a fundamental requirement of any nuclear reaction study. An effective particle-ID method is demonstrated, based on pulse shape analysis/discrimination (PSD) applied to large-area, single-element silicon detectors. This technique uses commercial electronic modules and achieves atomic number resolution rivaling that typically obtained with multi-element (ΔE - E) detector telescopes. The method is applied to the CHIMERA detector system without compromising its time-of-flight (TOF) resolution. In-beam tests of the PSD method have been performed with large-area, 300-μm thick CHIMERA silicon detectors, measuring particles from the 19F + 12C reaction at Tandem energies. Performance of a simple PSD set up is discussed, for front and rear particle injection. [ABSTRACT FROM AUTHOR]

Published
2005
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17. CHIMERA Data Acquisition Via Digital Sampling Technique.

Author

Alderighi, M., Anzalone, A., Bassini, R., Boiano, C., Cardella, G., Cavallaro, S., de Filippo, E., Geraci, E., Giustolisi, F., Guazzoni, P., Laguidara, E., Lanzanó, G., Lanzalone, G., Pagano, A., Papa, M., Pirrone, S., Politi, G., Porto, F., Russo, S., and Sassi, M.

Subjects
ANALOG-to-digital converters, ELECTRONIC data processing, DIGITAL electronics, TELESCOPES, ELECTRONIC amplifiers, ELECTRONICS
Abstract

A 100 Msamples/s 14-bit sampling analog-to-digital converter has been used to perform digital pulse-shape acquisition of signals collected from CHIMERA telescopes. Two different kinds of tests have been carried out to check the performances. The signals from a typical CHIMERA detection cell have been collected using both a standard CHIMERA electronic chain up to the amplifier, and a very simple analog front end, basically reduced to the preamplifier. The obtained on-beam and on-line results are presented. [ABSTRACT FROM AUTHOR]

Published
2004
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18. The data acquisition and control system for the 4pi detector CHIMERA.

Author

Aiello, S., Anzalone, A., Cardella, G., Cavallaro, S., De Filippo, E., Femino, S., Geraci, M., Giustolisi, F., Guazzoni, P., Iacono-Manno, C.M., Lanzalone, G., Lanzano, G., Lo Nigro, S., Pagano, A., Papa, M., Pirrone, S., Politi, G., Porto, F., Rizzio, F., and Sambataro, S.

Subjects
ELECTRONICS, DETECTORS
Abstract

Focuses on the introductory data acquisition system which was built to handle the signals from the detectors with a rate up to 1 kilohertz (kHz) on an estimation of 5000 electronic channels, referencing to the detector CHIMERA. Information on the CHIMERA detector; Reference to the on-line diagnostic system under development; Performance of the on-line data control.

Published
1998
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19. Detector array control and triggering.

Author

Aiello, S., Anzalone, A., Bartolucci, M., Cardella, G., Cavallaro, S., De Filippo, E., Femino, S., Geraci, M., Guazzoni, F., Iacono-Manno, M., Lanzalone, G., Lanzano, G., LoNigro, S., Manfredi, G., Pagano, A., Papa, M., Pironne, S., Politi, G., Porto, F., and Rizzio, F.

Subjects
ALGORITHMS
Abstract

Presents information on the employing of a commercial DSP-based board installed in a host-PC for the fast, on-line and real-time computation of special algorithms. Performance of experiments to probe the properties of the nuclei under extreme temperature and density conditions; Consistency of each cell; What the stability of the whole apparatus depends on.

Published
1998
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20. Processing CsI(Tl) 2D matrices by means of neural networks and Markov random fields

Author

Alderighi, M., primary, Anzalone, A., additional, Baruzzi, R., additional, Cardella, G., additional, Cavallaro, S., additional, De Filippo, E., additional, Geraci, E., additional, Giustolisi, F., additional, Guazzoni, P., additional, Lanzalone, G., additional, Lanzano, G., additional, LoNigro, S., additional, Pagano, A., additional, Papa, M., additional, Pirrone, S., additional, and Politi, G., additional

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21. Digital pulse-shape technique for charge discrimination in reversed CHIMERA silicon detectors

Author

Alderighi, M., primary, Amorini, F., additional, Anzalone, A., additional, Bassini, R., additional, Boiano, C., additional, Cardella, G., additional, Cavallaro, S., additional, DeFilippo, E., additional, Guazzoni, P., additional, Laguidara, E., additional, Lanzano, G., additional, Lanzalone, G., additional, Maiolino, C., additional, Pagano, A., additional, Papa, M., additional, Pirrone, S., additional, Politi, G., additional, Porto, F., additional, Rizzo, F., additional, Russo, S., additional, Sacca, G., additional, Sassi, M., additional, Sechi, G., additional, and Zetta, L., additional

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22. A novel approach to the classification of multidetector array data

Author

Alderighi, M., primary, Anzalone, A., additional, Bartolucci, M., additional, Bruno, M., additional, Cardella, G., additional, Cavallaro, S., additional, D'Agostino, M., additional, De Filippo, E., additional, Geraci, E., additional, Giustolisi, F., additional, Guazzoni, P., additional, Lanzalone, G., additional, Lanzano, G., additional, LoNigro, S., additional, Manfredi, G., additional, Pagano, A., additional, Papa, M., additional, Pirrone, S., additional, Politi, G., additional, Porto, F., additional, Russo, S., additional, Sambataro, S., additional, Sechi, G., additional, Sperduto, L., additional, and Zetta, L., additional

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23. A new electronic set up for pulse shape method with large area planar silicon detector of CHIMERA

Author

Alderighi, M., primary, Amorini, F., additional, Anzalone, A., additional, Arena, N., additional, Auditore, L., additional, Bassini, R., additional, Boiano, C., additional, Cardella, G., additional, Cavallaro, S., additional, Chatterjee, M.B., additional, D'Andrea, M., additional, De Filippo, E., additional, Fichera, F., additional, Geraci, E., additional, Guardone, N., additional, Grimaldi, A., additional, Guazzoni, P., additional, La Guidara, E., additional, Lanzano, G., additional, Lanzalone, G., additional, Maiolino, C., additional, Nicotra, D., additional, Pagano, A., additional, Papa, M., additional, Pirrone, S., additional, Politi, G., additional, Porto, F., additional, Pullia, A., additional, Rizzo, F., additional, Russo, S., additional, Russotto, P., additional, Santonocito, D., additional, Sacca, G., additional, Sassi, M., additional, Schroder, W.U., additional, Sechi, G., additional, Trifiro, A., additional, Take, J., additional, Trimarchi, M., additional, Urso, S., additional, and Zetta, L., additional

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24. A pre-analysis and data-storage unit for the CHIMERA DAQ

Author

Alderighi, M., primary, Amorini, F., additional, Anzalone, A., additional, Cardella, G., additional, Cavallaro, S., additional, DeFilippo, E., additional, Ghilardi, D., additional, Guazzoni, P., additional, LaGuidara, E., additional, Lanzano, G., additional, Lanzalone, G., additional, Maiolino, C., additional, Pagano, A., additional, Papa, M., additional, Pirrone, S., additional, Politi, G., additional, Porto, F., additional, Rizzo, F., additional, Russo, S., additional, Russotto, P., additional, Santanocito, D., additional, Sassi, M., additional, Sechi, G., additional, and Zetta, L., additional

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26. A pre-analysis and data-storage unit for the CHIMERA DAQ.

Author

Alderighi, M., Amorini, F., Anzalone, A., Cardella, G., Cavallaro, S., DeFilippo, E., Ghilardi, D., Guazzoni, P., LaGuidara, E., Lanzano, G., Lanzalone, G., Maiolino, C., Pagano, A., Papa, M., Pirrone, S., Politi, G., Porto, F., Rizzo, F., Russo, S., and Russotto, P.

Published
2004
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30. ELIMED a new concept of hadrontherapy with laser-driven beams

Author

Fortunato Caruso, S. Cavallaro, Luciano Calabretta, Georg Korn, Giuseppe Antonio Malfa, Bijan Bji, Lorenzo Torrisi, Francesco Schillaci, E. Zappalà, Biagio Trovato, Daniele Margarone, Mario Maggiore, J. Prokupek, S. Passarello, Francesco Romano, Claudio Cali, Antonio Caruso, Marcella Renis, Barbara Tomasello, A. Tramontana, Lorenzo Manti, P. Cirrone, Giacomo Cuttone, Santo Gammino, The Nuclear and Plasma Sciences Society of the,Institute of Electrical and Electronic Engineers,(IEEE NPSS), Cirrone, Gap, Cuttone, G, Korn, G, Maggiore, M, Margarone, D, Bji, B, Calabretta, L, Cali, C, Caruso, A, Caruso, F, Cavallaro, S, Gammino, S, Malfa, G, Manti, Lorenzo, Passarello, S, Prokupek, J, Renis, M, Romano, F, Schillaci, F, Tomasello, B, Torrisi, L, Tramontana, A, Trovato, B, and Zappala, E.

Subjects
Physics, Spectrometer, Extreme Light Infrastructure, Monte Carlo method, Laser, law.invention, Nuclear physics, Hadron therapy, law, Cancer treatment, Dosimetry, Laser-driven proton beam, Proton therapy, Beam (structure)
Abstract

ELIMED (Medical Applications at Extreme Light Infrastructure) is a task-force originally born by an idea of ELI-Beams (Prague, CZ)and INFN-LNS (Italian Institute for Nuclear Physics of Catania, I) researchers. It now involves other groups interested in the possibility to design and develop a new generation of hadrontherapy facilities using laser-accelerated ion beams. ELIMED main goal is to perform proof-of-principle experiments aimed to demonstrate that laser-accelerated high-energy proton beams (up to 70 MeV in the first phase) can be potentially used for the specific case of ocular proton therapy. For this purpose new devices for beam handling and transport will be developed as well as new methods for radiobiology and dosimetry. The involvement of INFN-LNS group takes advantage of the well-established expertise in dosimetry measurements and Monte Carlo calculations for medical physics, which has been achieved in several years of eye tumor treatments in the CATANA proton therapy facility. Recently, in the framework of an INFN activity, they have also designed, fabricated, calibrated and experimentally tested at PALS laser laboratory (Cz) a Thomson Parabola ion spectrometer with a wide acceptance and able to characterize laser-driven proton beams up to 20 MeV.

Published
2012
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