Your search keyword '"Manea, C."' showing total 256 results

1. Studies on a silicon-photomultiplier-based camera for Imaging Atmospheric Cherenkov Telescopes

Author

Arcaro, C., Corti, D., De Angelis, A., Doro, M., Manea, C., Mariotti, M., Rando, R., Reichardt, I., and Tescaro, D.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Imaging Atmospheric Cherenkov Telescopes (IACTs) represent a class of instruments which are dedicated to the ground-based observation of cosmic VHE gamma ray emission based on the detection of the Cherenkov radiation produced in the interaction of gamma rays with the Earth atmosphere. One of the key elements of such instruments is a pixelized focal-plane camera consisting of photodetectors. To date, photomultiplier tubes (PMTs) have been the common choice given their high photon detection efficiency (PDE) and fast time response. Recently, silicon photomultipliers (SiPMs) are emerging as an alternative. This rapidly evolving technology has strong potential to become superior to that based on PMTs in terms of PDE, which would further improve the sensitivity of IACTs, and see a price reduction per square millimeter of detector area. We are working to develop a SiPM-based module for the focal-plane cameras of the MAGIC telescopes to probe this technology for IACTs with large focal plane cameras of an area of few square meters. We will describe the solutions we are exploring in order to balance a competitive performance with a minimal impact on the overall MAGIC camera design using ray tracing simulations. We further present a comparative study of the overall light throughput based on Monte Carlo simulations and considering the properties of the major hardware elements of an IACT., Comment: Proceeding of the RICH 2016 conference, 5 pages, 6 figures

Published

2017

2. The electronics of the High-Energy Particle Detector on board the CSES-01 satellite

Author

Ambrosi, G., Bartocci, S., Basara, L., Battiston, R., Burger, W.J., Campana, D., Caprai, M., Carfora, L., Castellini, G., Cipollone, P., Conti, L., Contin, A., De Donato, C., De Persio, F., De Santis, C., Follega, F.M., Guandalini, C., Gebbia, G., Ionica, M., Iuppa, R., Laurenti, G., Lazzizzera, I., Lolli, M., Manea, C., Martucci, M., Masciantonio, G., Mergé, M., Mese, M., Osteria, G., Pacini, L., Palma, F., Palmonari, F., Panico, B., Parmentier, A., Patrizii, L., Perfetto, F., Picozza, P., Pozzato, M., Puel, M., Rashevskaya, I., Ricci, E., Ricci, M., Ricciarini, S., Sahnoun, Z., Scotti, V., Sotgiu, A., Sparvoli, R., Vitale, V., Zoffoli, S., and Zuccon, P.

Published

2021

3. Beam test calibrations of the HEPD detector on board the China Seismo-Electromagnetic Satellite

Author

Ambrosi, G., Bartocci, S., Basara, L., Battiston, R., Burger, W.J., Campana, D., Carfora, L., Castellini, G., Cipollone, P., Conti, L., Contin, A., De Donato, C., De Persio, F., De Santis, C., Follega, F.M., Guandalini, C., Ionica, M., Iuppa, R., Laurenti, G., Lazzizzera, I., Lolli, M., Manea, C., Martucci, M., Masciantonio, G., Mergé, M., Osteria, G., Pacini, L., Palma, F., Palmonari, F., Panico, B., Parmentier, A., Patrizii, L., Perfetto, F., Picozza, P., Piersanti, M., Pozzato, M., Puel, M., Rashevskaya, I., Ricci, E., Ricci, M., Ricciarini, S., Scotti, V., Sotgiu, A., Sparvoli, R., Spataro, B., Vitale, V., Zoffoli, S., and Zuccon, P.

Published

2020

4. A compact Time-Of-Flight detector for space applications: The LIDAL system

Author

Rizzo, A., Narici, L., Messi, R., Cipollone, P., De Donato, C., Di Fino, L., Iannilli, M., La Tessa, C., Manea, C., Masciantonio, G., Morone, M.C., Nobili, G., Pecchi, D., Picozza, P., Reali, E., Rovituso, M., Tommasino, F., and Vitali, G.

Published

2018

5. Proton beam characterization in the experimental room of the Trento Proton Therapy facility

Author

Tommasino, F., Rovituso, M., Fabiano, S., Piffer, S., Manea, C., Lorentini, S., Lanzone, S., Wang, Z., Pasini, M., Burger, W.J., La Tessa, C., Scifoni, E., Schwarz, M., and Durante, M.

Published

2017

6. A systematic study of laser ablation for space debris mitigation

Author

Battiston, R., Burger, W.J., Cafagna, A., Manea, C., and Spataro, B.

Published

2017

7. Development of γ-ray tracking detectors

Author

Lieder, RM, Gast, W, Jäger, HM, Mihailescu, L, Rossewij, M, Eberth, J, Pascovici, G, Thomas, HG, Weisshaar, D, Beck, F, Curien, D, Duchêne, G, Pachoud, E, Piqueras, I, Alvarez, CR, Bazzacco, D, Bellato, M, Kroell, T, Manea, C, Quintana, B, Venturelli, R, Napoli, DR, Rosso, D, Spolaore, P, Geraci, A, Pullia, A, Ripamonti, G, Camera, F, Leoni, S, Million, B, Wieland, O, Bracco, A, Pignanelli, M, Brambilla, S, Lisle, J, Smith, AG, Well, R, Nolan, P, Boston, A, Cullen, D, Descovich, M, Enqvist, T, Cederwall, B, Ideguchi, E, van der Marel, J, Nyberg, J, Herskind, B, Sletten, G, Wilson, J, Redouin, B, Henck, R, Gutknecht, D, and Jääskeläinen, K

Subjects

Mathematical Sciences, Physical Sciences, Nuclear & Particles Physics, Mathematical sciences, Physical sciences

Abstract

The next generation of 4π arrays for high-precision γ-ray spectroscopy AGATA will consist of γ-ray tracking detectors. They represent high-fold segmented Ge detectors and a front-end electronics, based on digital signal processing techniques, which allows to extract energy, timing and spatial information on the interactions of a γ-ray in the Ge detector by pulse shape analysis of its signals. Utilizing the information on the positions of the interaction points and the energies released at each point the tracks of the γ-rays in a Ge shell can be reconstructed in three dimensions on the basis of the Compton-scattering formula.

Published

2001

8. The experimental set-up of the RIB in-flight facility EXOTIC

Author

Pierroutsakou, D., Boiano, A., Boiano, C., Di Meo, P., La Commara, M., Manea, C., Mazzocco, M., Nicoletto, M., Parascandolo, C., Signorini, C., Soramel, F., Strano, E., Toniolo, N., Torresi, D., Tortone, G., Anastasio, A., Bettini, M., Cassese, C., Castellani, L., Corti, D., Costa, L., De Fazio, B., Galet, G., Glodariu, T., Grebosz, J., Guglielmetti, A., Molini, P., Pontoriere, G., Rocco, R., Romoli, M., Roscilli, L., Sandoli, M., Stroe, L., Tessaro, M., and Zatti, P.G.

Published

2016

9. Large size SiPM matrix for Imaging Atmospheric Cherenkov Telescopes applications

Author

Ambrosi, G., Corti, D., Ionica, M., Manea, C., Mariotti, M., Rando, R., Reichardt, I., and Schultz, C.

Published

2016

10. The high granularity and large solid angle detection array EXPADES

Author

Strano, E., Anastasio, A., Bettini, M., Boiano, A., Boiano, C., Cassese, C., Castellani, L., Corti, D., Di Meo, P., Galet, G., Glodariu, T., Grebosz, J., Guglielmetti, A., La Commara, M., Manea, C., Mazzocco, M., Molini, P., Nicoletto, M., Parascandolo, C., Parascandolo, L., Pierroutsakou, D., Pontoriere, G., Roscilli, L., Signorini, C., Soramel, F., Stroe, L., Tessaro, M., Toniolo, N., Torresi, D., and Zatti, P.G.

Published

2013

11. The electronics of the High-Energy Particle Detector on board the CSES-01 satellite

Author

Ambrosi, G, Bartocci, S, Basara, L, Battiston, R, Burger, Wj, Campana, D, Caprai, M, Carfora, L, Castellini, G, Cipollone, P, Conti, L, Contin, A, De Donato, C, De Persio, F, De Santis, C, Follega, Fm, Alini, C, Gebbia, G, Ionica, M, Iuppa, R, Laurenti, G, Lazzizzera, I, Lolli, M, Manea, C, Martucci, M, Masciantonio, G, Mergé, M, Mese, M, Osteria, G, Pacini, L, Palma, F, Palmonari, F, Panico, B, Parmentier, A, Patrizii, L, Perfetto, F, Picozza, P, Pozzato, M, Puel, M, Rashevskaya, I, Ricci, E, Ricci, M, Ricciarini, S, Sahnoun, Z, Scotti, V, Sotgiu, A, Sparvoli, R, Vitale, V, Zoffoli, S, Zuccon, P, Ambrosi G., Bartocci S., Basara L., Battiston R., Burger W.J., Campana D., Caprai M., Carfora L., Castellini G., Cipollone P., Conti L., Contin A., De Donato C., De Persio F., De Santis C., Follega F.M., Guandalini C., Gebbia G., Ionica M., Iuppa R., Laurenti G., Lazzizzera I., Lolli M., Manea C., Martucci M., Masciantonio G., Merge M., Mese M., Osteria G., Pacini L., Palma F., Palmonari F., Panico B., Parmentier A., Patrizii L., Perfetto F., Picozza P., Pozzato M., Puel M., Rashevskaya I., Ricci E., Ricci M., Ricciarini S., Sahnoun Z., Scotti V., Sotgiu A., Sparvoli R., Vitale V., Zoffoli S., Zuccon P., Ambrosi, G., Bartocci, S., Basara, L., Battiston, R., Burger, W. J., Campana, D., Caprai, M., Carfora, L., Castellini, G., Cipollone, P., Conti, L., Contin, A., De Donato, C., De Persio, F., De Santis, C., Follega, F. M., Guandalini, C., Gebbia, G., Ionica, M., Iuppa, R., Laurenti, G., Lazzizzera, I., Lolli, M., Manea, C., Martucci, M., Masciantonio, G., Merge, M., Mese, M., Osteria, G., Pacini, L., Palma, F., Palmonari, F., Panico, B., Parmentier, A., Patrizii, L., Perfetto, F., Picozza, P., Pozzato, M., Puel, M., Rashevskaya, I., Ricci, E., Ricci, M., Ricciarini, S., Sahnoun, Z., Scotti, V., Sotgiu, A., Sparvoli, R., Vitale, V., Zoffoli, S., and Zuccon, P.

Subjects

Physics, Settore FIS/01, Satellite experiment, Nuclear and High Energy Physics, Range (particle radiation), High energy particle, business.industry, Detector, Particle detector, Physics::Space Physics, Electronic, Detector techniques for Cosmology and Astroparticle Physic, Satellite, Electronics, Aerospace engineering, business, Instrumentation, Radiation hardening, Energy (signal processing)

Abstract

CSES (China Seismo-Electromagnetic Satellite) is a Chinese–Italian scientific space mission dedicated to monitor the variations of the main parameters of the topside ionosphere (electric and magnetic fields, plasma parameters, charge particle fluxes) caused by either natural emitters – especially earthquakes – or artificial ones. The CSES satellite was successfully launched from the Jiuquan Satellite Launch Center located in the west of Inner Mongolia on February 2nd, 2018, and it is now orbiting under nominal conditions. The expected mission lifetime amounts to 5 years. CSES is the first element of a multi-satellite monitoring system; several satellites are scheduled for the next few years. The High-Energy Particle Detector (HEPD) is the main contribution of the Italian collaboration to the mission. It was designed and built in order to detect electrons in the energy range between 3 and 100 MeV, protons between 30 and 200 MeV, and light nuclei in the MeV energy window. The electronics of the detector was designed following stringent requirements on mechanical and thermal stability, power consumption, radiation hardness and double redundancy. The system successfully went through the space qualification tests. In this paper, we describe the HEPD electronics, the space qualification tests performed before launch, and the in-flight performance of the detector.

Published

2021

12. Beam test calibrations of the HEPD detector on board the China Seismo-Electromagnetic Satellite

Author

Ambrosi, G, Bartocci, S, Basara, L, Battiston, R, Burger, W, Campana, D, Carfora, L, Castellini, G, Cipollone, P, Conti, L, Contin, A, De Donato, C, De Persio, F, De Santis, C, F M, Follega, Guandalini, C, Ionica, M, Iuppa, R, Laurenti, G, Lazzizzera, I, Lolli, M, Manea, C, Martucci, M, Masciantonio, G, Mergé, M, Osteria, G, Pacini, L, Palma, F, Palmonari, F, Panico, B, Parmentier, A, Patrizii, L, Perfetto, F, Picozza, P, Piersanti, M, Pozzato, M, Puel, M, Rashevskaya, I, Ricci, E, Ricci, M, Ricciarini, S, Scotti, V, Sotgiu, A, Sparvoli, R, Spataro, B, Vitale, V, Zoffoli, S, Zuccon, P, Ambrosi G., Bartocci S., Basara L., Battiston R., Burger W.J., Campana D., Carfora L., Castellini G., Cipollone P., Conti L., Contin A., De Donato C., De Persio F., De Santis C., Follega F.M., Guandalini C., Ionica M., Iuppa R., Laurenti G., Lazzizzera I., Lolli M., Manea C., Martucci M., Masciantonio G., Merge M., Osteria G., Pacini L., Palma F., Palmonari F., Panico B., Parmentier A., Patrizii L., Perfetto F., Picozza P., Piersanti M., Pozzato M., Puel M., Rashevskaya I., Ricci E., Ricci M., Ricciarini S., Scotti V., Sotgiu A., Sparvoli R., Spataro B., Vitale V., Zoffoli S., Zuccon P., Ambrosi, G., Bartocci, S., Basara, L., Battiston, R., Burger, W. J., Campana, D., Carfora, L., Castellini, G., Cipollone, P., Conti, L., Contin, A., De Donato, C., De Persio, F., De Santis, C., Follega, F. M., Guandalini, C., Ionica, M., Iuppa, R., Laurenti, G., Lazzizzera, I., Lolli, M., Manea, C., Martucci, M., Masciantonio, G., Merge, M., Osteria, G., Pacini, L., Palma, F., Palmonari, F., Panico, B., Parmentier, A., Patrizii, L., Perfetto, F., Picozza, P., Piersanti, M., Pozzato, M., Puel, M., Rashevskaya, I., Ricci, E., Ricci, M., Ricciarini, S., Scotti, V., Sotgiu, A., Sparvoli, R., Spataro, B., Vitale, V., Zoffoli, S., and Zuccon, P.

Subjects

Electromagnetic field, Nuclear and High Energy Physics, Cosmic ray, 02 engineering and technology, 01 natural sciences, Particle detector, 0103 physical sciences, Calibration, 010306 general physics, Instrumentation, Remote sensing, Physics, Settore FIS/01, Range (particle radiation), Detector, Astrophysics::Instrumentation and Methods for Astrophysics, Data analysi, 021001 nanoscience & nanotechnology, INTERNATIONAL STATION, RADIATION BELTS, SCINTILLATION COUNTERS, Satellite, Physics::Space Physics, 0210 nano-technology, Beam (structure)

Abstract

CSES (China Seismo-Electromagnetic Satellite) is a Chinese-Italian space mission dedicated to monitoring of variations of the electromagnetic field and waves, plasma parameters, and particle fluxes induced by natural sources and artificial emitters in the near-Earth space. The satellite was launched from the Jiuquan Satellite Launch Center in the Gobi desert (Inner Mongolia, China) on 2, 2018. The expected mission lifetime amounts to 5 years. The Italian contribution to the mission includes the design and construction of the High-Energy Particle Detector (HEPD), aimed to detect electrons in the energy range between 3 and 100 MeV and protons between 30 and 200 MeV, as well as light nuclei in the MeV energy range. In this paper, we describe the calibration procedures applied to HEPD based on data acquired during two tests at accelerator laboratories, which were performed on HEPD Flight Model prior to the delivery to China for final integration. An additional acquisition of cosmic muons was performed in order to better characterize the detector response before launch.

Published

2020

13. Important influence of single neutron stripping coupling on near-barrier 8Li + 90Zr quasi-elastic scattering

Author

Pakou, A., Keeley, N., Pierroutsakou, D., Mazzocco, M., Acosta, L., Aslanoglou, X., Boiano, A., Boiano, C., Carbone, D., Cavallaro, M., Grebosz, J., La Commara, M., Manea, C., Marquinez-Duran, G., Martel, I., Parascandolo, C., Rusek, K., Sánchez-Benítez, A. M., Sgouros, O., Signorini, C., Soramel, F., Soukeras, V., Stiliaris, E., Strano, E., Torresi, D., Trzcińska, A., Watanabe, Y. X., and Yamaguchi, H.

Published

2015

14. Total reaction cross sections for 8Li + 90Zr at near-barrier energies

Author

Pakou, A., Pierroutsakou, D., Mazzocco, M., Acosta, L., Aslanoglou, X., Boiano, A., Boiano, C., Carbone, D., Cavallaro, M., Grebosz, J., Keeley, N., La Commara, M., Manea, C., Marquinez-Duran, G., Martel, I., Parascandolo, C., Rusek, K., Sánchez-Benítez, A.M., Sgouros, O., Signorini, C., Soramel, F., Soukeras, V., Stiliaris, E., Strano, E., Torresi, D., Trzcinska, A., Watanabe, Y.X., and Yamaguchi, H.

Published

2015

15. Assertiveness and Organizational Trust as predictors of mental and Physical Health in a Romanian Oil Company

Author

Tănase, S., Manea, C., Chraif, M., Anţei, M., and Coblaş, V.

Published

2012

16. 7Be and 8B reaction dynamics at Coulomb barrier energies

Author

Strano E., Mazzocco M., Boiano A., Boiano C., La Commara M., Manea C., Parascandolo C., Pierroutsakou D., Signorini C., Torresi D., Yamaguchi H., Kahl D., Acosta L., Di Meo P., Fernandez-Garcia J.P., Glodariu T., Grebosz J., Guglielmetti A., Imai N., Hirayama Y., Ishiyama H., Iwasa N., Jeong S.C., Jia H.M., Keeley N., Kim Y.H., Kimura S., Kubono S., Lay J.A., Lin C.J., Marquinez-Duran G., Marte I., Miyatake H., Mukai M., Nakao T., Nicoletto M., Pakou A., Rusek K., Sakaguchi Y., Sanchez-Benitez A.M., Sava T., Sgouros O., Stefanini C., Soramel F., Soukeras V., Stiliaris E., Stroe L., Teranishi T., Toniolo N., Wakabayashi Y., Watanabe Y.X., Yang L., and Yang Y.Y.

Subjects

Physics, QC1-999

Abstract

We investigated the reaction dynamics induced by the 7Be,8B+208Pb collisions at energies around the Coulomb barrier. Charged particles originated by both the col- lisions were detected by means of 6 ΔE-Eres telescopes of a newly developed detector array. Experimental data were analysed within the framework of the Optical Model and the total reaction cross-sections were compared together and with the 6,7Li+208Pb colli-sion data. According to the preliminary results, 7Be nucleus reactivity is rather similar to the 7Li one whereas the 8B+208Pb total reaction cross section appears to be much larger than those measured for reactions induced by the other weakly-bound projectiles on the same target.

Published

2018

17. Control and data acquisition software of the high-energy particle detector on board the China Seismo-Electromagnetic Satellite space mission

Author

Sotgiu, A, De Donato, C, Fornaro, C, Tassa, S, Scannavini, M, Iannaccio, D, Ambrosi, G, Bartocci, S, Basara, L, Battiston, R, Burger, Wj, Campana, D, Carfora, L, Castellini, G, Cipollone, P, Conti, L, Contin, A, De Persio, F, De Santis, C, Follega, Fm, Alini, C, Ionica, M, Iuppa, R, Laurenti, G, Lazzizzera, I, Lolli, M, Manea, C, Martucci, M, Masciantonio, G, Mergé, M, Osteria, G, Pacini, L, Palma, F, Palmonari, F, Panico, B, Parmentier, A, Perfetto, F, Picozza, P, Piersanti, M, Pozzato, M, Puel, M, Rashevskaya, I, Ricci, E, Ricci, M, Ricciarini, Sb, Scotti, V, Sparvoli, R, Spataro, B, Vitale, V, Zoffoli, S, Zuccon, P, Sotgiu, A., De Donato, C., Fornaro, C., Tassa, S., Scannavini, M., Iannaccio, D., Ambrosi, G., Bartocci, S., Basara, L., Battiston, R., Burger, W. J., Campana, D., Carfora, L., Castellini, G., Cipollone, P., Conti, L., Contin, A., De Persio, F., De Santis, C., Follega, F. M., Guandalini, C., Ionica, M., Iuppa, R., Laurenti, G., Lazzizzera, I., Lolli, M., Manea, C., Martucci, M., Masciantonio, G., Merge, M., Osteria, G., Pacini, L., Palma, F., Palmonari, F., Panico, B., Parmentier, A., Perfetto, F., Picozza, P., Piersanti, M., Pozzato, M., Puel, M., Rashevskaya, I., Ricci, E., Ricci, M., Ricciarini, S. B., Scotti, V., Sparvoli, R., Spataro, B., Vitale, V., Zoffoli, S., and Zuccon, P.

Subjects

Settore FIS/01, Digital signal processor, High energy particle, Computer science, data acquisition, Control (management), Detector, Real-time computing, embedded software, Space (mathematics), Embedded software, Data acquisition, earthquake, Satellite, Software, digital signal processor

Abstract

The China Seismo-Electromagnetic Satellite (CSES) space mission—also known as Limadou in Italian—is a scientific collaboration between China and Italy that aims to investigate the structure and dynamics of the iono/magnetosphere, and in particular to study the possible correlation of perturbations to the occurrence of high-magnitude seismic events. The Chinese satellite houses the Italian high-energy particle detector (HEPD), an apparatus composed of a silicon tracker and a calorimeter system, which detects electrons and protons in the energy ranges 3–100 and 30–200 MeV, respectively. The satellite was launched on February 2, 2018; after a commissioning phase dedicated to the setting of an optimal configuration, HEPD is fully operational since July 28, 2018. After a general overview of the CSES-Limadou mission, this article presents the structure of the HEPD apparatus and describes the design and implementation of the software for the embedded computer system that is responsible for HEPD management. The onboard software runs on the digital signal processors of two electronic boards (CPU and data acquisition), monitors system status, handles instrument data acquisition, performs periodic calibration of the subdetectors, performs data compression, and communicates with the satellite. An overview of HEPD in-flight operations and performance is given in the last section.

Published

2021

18. 8B + 208Pb Elastic Scattering at Coulomb Barrier Energies

Author

Commara M. La, Mazzocco M., Boiano A., Boiano C., Manea C., Parascandolo C., Pierroutsakou D., Signorini C., Strano E., Torresi D., Yamaguchi H., Kahl D., Meo P. Di, Grebosz J., Imai N., Hirayama Y., Ishiyama H., Iwasa N., Jeong S.C., Jia H.M., Kim Y.H., Kimura S., Kubono S., Lin C.J., Miyatake H., Mukai M., Nakao T., Nicoletto M., Sakaguchi Y., Sánchez-Benítez A.M., Soramel F., Teranishi T., Wakabayashi Y., Watanabe Y.X., Yang L., and Yang Y.Y.

Subjects

Physics, QC1-999

Abstract

The scattering process of weakly-bound nuclei at Coulomb barrier energies provides deep insights on the reaction dynamics induced by exotic nuclei. Within this framework, we measured for the first time the scattering process of the short-lived Radioactive Ion Beam (RIB) 8B (S p = 0.1375 MeV) from a 208Pb target at 50 MeV beam energy. The 8B RIB was produced by means of the in-flight facility CRIB (RIKEN, Japan) with an average intensity on target of 10 kHz and a purity about 25%. Elastically scattering ions were detected in the angular range θc.m. = 10°-160° by means of the detector array EXPADES. A preliminary optical model analysis indicates a total reaction cross section of about 1 b, a value, once reduced, 2-3 times larger than those obtained for the reactions induced by the stable weakly-bound projectiles 6,7Li on a 208Pb target in the energy range around the Coulomb barrier.

Published

2017

19. Reaction dynamics studies for the system 7Be + 208Pb at Coulomb barrier energies

Author

Mazzocco M., Boiano A., Boiano C., Commara M. La, Manea C., Parascandolo C., Pierroutsakou D., Strano E., Torresi D., Acosta L., Meo P. Di, Fernandez-Garcia J.P., Glodariu T., Grebosz J., Guglielmetti A., Marquinez-Duran G., Martel I., Nicoletto M., Pakou A., Sánchez-Benítez A.M., Sava T., Sgouros O., Signorini C., Soramel F., Soukeras V., and Stroe L.

Subjects

Physics, QC1-999

Abstract

The scattering process of the Radioactive Ion Beam 7Be from a 208Pb target was measured at three near-barrier energies. The quasi-elastic angular distributions were analyzed within the framework of the optical model to extract the reaction cross sections. The results are compared with those obtained for the reactions induced by the mirror projectile 7Li and by the lightest particle-stable lithium isotope 6Li on the same target. The angular distributions for the production of the two 7Be constituent clusters, namely 3He and 4He, were also measured. In agreement with what observed for the interaction of 7Be with lighter targets, the production of the heavier helium isotope resulted to be much more abundant than that of its lighter counterpart.

Published

2017

20. Control and Data Acquisition Software of the High-Energy Particle Detector on board the CSES Space Mission

Author

Sotgiu, A, De Donato, C, Fornaroy, C, Tassaz, S, Scannaviniz, M, Iannaccio, D, Ambrosi, G, Bartocci, S, Basara, L, Battiston, R, W J, Burger, Campana, D, Carfora, L, Castellini, G, Cipollone, P, Conti, L, Contin, A, De Persio, F, De Santis, C, F M, Follega, Guandalini, C, Ionica, M, Iuppa, R, Laurenti, G, Lazzizzera, I, Lolli, M, Manea, C, Martucci, M, Masciantonio, G, Mergé, M, Osteria, G, Pacin, L, Palma, F, Palmonari, F, Panico, B, Parmentier, A, Perfetto, F, Picozza, P, Piersanti, M, Pozzato, M, Puel, M, Rashevskaya, I, Ricci, E, Ricci, M, Ricciarini, S, Scotti, V, Sparvoli, R, Spataro, B, Vitale, V, Zoffoli, S, and Zuccon, P

Published

2021

21. Elastic scattering for the B 8 and Be 7 + Pb 208 systems at near-Coulomb barrier energies

Author

Mazzocco M., Keeley N., Boiano A., Boiano C., La Commara M., Manea C., Parascandolo C., Pierroutsakou D., Signorini C., Strano E., Torresi D., Yamaguchi H., Kahl D., Acosta L., Di Meo P., Fernandez-Garcia J. P., Glodariu T., Grebosz J., Guglielmetti A., Hirayama Y., Imai N., Ishiyama H., Iwasa N., Jeong S. C., Jia H. M., Kim Y. H., Kimura S., Kubono S., La Rana G., Lin C. J., Lotti P., Marquinez-Duran G., Martel I., Miyatake H., Mukai M., Nakao T., Nicoletto M., Pakou A., Rusek K., Sakaguchi Y., Sanchez-Benitez A. M., Sava T., Sgouros O., Soukeras V., Soramel F., Stiliaris E., Stroe L., Teranishi T., Toniolo N., Wakabayashi Y., Watanabe Y. X., Yang L., Yang Y. Y., Zhang H. Q., Mazzocco, M., Keeley, N., Boiano, A., Boiano, C., La Commara, M., Manea, C., Parascandolo, C., Pierroutsakou, D., Signorini, C., Strano, E., Torresi, D., Yamaguchi, H., Kahl, D., Acosta, L., Di Meo, P., Fernandez-Garcia, J. P., Glodariu, T., Grebosz, J., Guglielmetti, A., Hirayama, Y., Imai, N., Ishiyama, H., Iwasa, N., Jeong, S. C., Jia, H. M., Kim, Y. H., Kimura, S., Kubono, S., La Rana, G., Lin, C. J., Lotti, P., Marquinez-Duran, G., Martel, I., Miyatake, H., Mukai, M., Nakao, T., Nicoletto, M., Pakou, A., Rusek, K., Sakaguchi, Y., Sanchez-Benitez, A. M., Sava, T., Sgouros, O., Soukeras, V., Soramel, F., Stiliaris, E., Stroe, L., Teranishi, T., Toniolo, N., Wakabayashi, Y., Watanabe, Y. X., Yang, L., Yang, Y. Y., and Zhang, H. Q.

Abstract

The elastic scattering of the weakly bound radioactive nuclei B8 and Be7 from a Pb208 target was measured for the first time in the energy range around the Coulomb barrier. The data were analyzed using the optical model and the continuum discretized coupled channels (CDCC) formalisms. The reaction cross sections extracted from the optical model fits clearly indicate a remarkably enhanced reaction probability for the very weakly bound B8 (Sp=137.5keV) compared to similar mass nuclei interacting with the same target nucleus. CDCC calculations assuming a He3+He4 cluster model well described the Be7 experimental elastic scattering angular distributions, whereas the use of a Be7+p cluster model of B8 with an inert Be7 core gave a relatively poor description of the corresponding experimental data, suggesting that this model may be too simplistic and the possibility of core excitation should not be ignored.

Published

2019

22. Elastic scattering of 17O+208Pb at energies near the Coulomb barrier

Author

Torresi D., Strano E., Mazzocco M., Boiano A., Boiano C., Di Meo P., La Commara M., Manea C., Nicoletto M., Grebosz J., Guglielmetti A., Molini P., Parascandolo C., Pierroutsakou D., Signorini C., Soramel F., Toniolo N., Filipescu D., Gheorghe A., Glodariu T., Jeong S., Kim Y.H., Lay J.A., Miyatake H., Pakou A., Sgouros O., Soukeras V., Stroe L., Vitturi A., Watanabe Y., and Zerva K.

Subjects

Physics, QC1-999

Abstract

Within the frame of the commissioning of a new experimental apparatus EXPADES we undertook the measurement of the elastic scattering angular distribution for the system 17O+208Pb at energy around the Coulomb barrier. The reaction dynamics induced by loosely bound Radioactive Ion Beams is currently being extensively studied [4]. In particular the study of the elastic scattering process allows to obtain direct information on the total reaction cross section of the exotic nuclei. In order to understand the effect of the low binding energy on the reaction mechanism it is important to compare radioactive weakly bound nuclei with stable strongly-bound nuclei. In this framework the study of the 17O+208Pb elastic scattering can be considered to be complementary to a previous measurement of the total reaction cross section for the system 17F+208Pb at energies of 86, 90.4 MeV [5, 6]. The data will be compared with those obtained for the neighboring systems 16,18O+208Pb and others available in literature.

Published

2016

23. 7Be- and 8B-reaction dynamics at Coulomb barrier energies

Author

Mazzocco M., Boiano A., Boiano C., La Commara M., Manea C., Parascandolo C., Pierroutsakou D., Signorini C., Strano E., Torresi D., Yamaguchi H., Kahl D., Acosta L., Di Meo P., Fernandez-Garcia J.P., Glodariu T., Grebosz J., Guglielmetti A., Imai N., Hirayama Y., Ishiyama H., Iwasa N., Jeong S.C., Jia H.M., Keeley N., Kim Y.H., Kimura S., Kubono S., Lay J.A., Lin C.J., Marquinez-Duran G., Martel I., Miyatake H., Mukai M., Nakao T., Nicoletto M., Pakou A., Rusek K., Sakaguchi Y., Sánchez-Benítez A.M., Sava T., Sgouros O., Stefanini C., Soramel F., Soukeras V., Stiliaris E., Stroe L., Teranishi T., Toniolo N., Wakabayashi Y., Watanabe Y.X., Yang L., and Yang Y.Y.

Subjects

Physics, QC1-999

Abstract

We investigated the reaction dynamics induced by the Radioactive Ion Beams 7Be and 8B on a 208Pb target at energies around the Coulomb barrier. The two measurements are strongly interconnected, being 7Be (Sα = 1.586 MeV) the loosely bound core of the even more exotic 8B (Sp = 0.1375 MeV) nucleus. Here we summarize the present status of the data analysis for the measurement of the elastic scattering process for both reactions and the preliminary results for the optical model analysis of the collected data.

Published

2016

24. Direct processes for the systems Be-7,B-8 +Pb-208 at Coulomb barrier energies

Author

Mazzocco, M. Keeley, N. Boiano, A. Boiano, C. La Commara, M. Lagni, A. Manea, C. Parascandolo, C. and Pierroutsakou, D. Signorini, C. Strano, E. Torresi, D. and Yamaguchi, H. Kahl, D. Acosta, L. Di Meo and Fernandez-Garcia, J. P. Glodariu, T. Grebosz, J. and Guglielmetti, A. Hirayama, Y. Imai, N. Ishiyama, H. and Iwasa, N. Jeong, S. C. Jia, H. M. Kim, Y. H. Kimura, S. and Kubono, S. La Rana, G. Lin, C. J. Lotti, P. and Marquinez-Duran, G. Martel, I Miyatake, H. Mukai, M. and Nakao, T. Nicoletto, M. Pakou, A. Rusek, K. Sakaguchi, Y. Sanchez-Benitez, A. M. Sava, T. Sgouros, O. Soukeras, V Soramel, F. Stiliaris, E. Stroe, L. Teranishi, T. and Toniolo, N. Wakabayashi, Y. Watanabe, Y. X. Yang, L. and Yang, Y. Y. Zhang, H. Q.

Subjects

Nuclear Experiment

Abstract

The elastic scattering process for the nuclear reactions induced by the Radioactive Ion Beams Be-7 and B-8 on a Pb-208 target was measured for the first time in the energy range around the Coulomb barrier. Extensive theoretical calculations within the framework of the optical model were performed. An excellent agreement between experimental data and theoretical predictions was achieved for the reaction Be-7 + Pb-208 while a comprehensive understanding of the reaction dynamics induced by the more exotic projectile B-8 is still far to be reached. Predictions of the cross section for the breakup for both systems will also be given.

Published

2020

25. Direct processes for the systems 7Be,8B + 208Pb at Coulomb barrier energies

Author

Mazzocco, M, primary, Keeley, N, additional, Boiano, A, additional, Boiano, C, additional, Commara, M La, additional, Lagni, A, additional, Manea, C, additional, Parascandolo, C, additional, Pierroutsakou, D, additional, Signorini, C, additional, Strano, E, additional, Torresi, D, additional, Yamaguchi, H, additional, Kahl, D, additional, Acosta, L, additional, Meo, Di, additional, Fernandez-Garcia, J P, additional, Glodariu, T, additional, Grebosz, J, additional, Guglielmetti, A, additional, Hirayama, Y, additional, Imai, N, additional, Ishiyama, H, additional, Iwasa, N, additional, Jeong, S C, additional, Jia, H M, additional, Kim, Y H, additional, Kimura, S, additional, Kubono, S, additional, Rana, G La, additional, Lin, C J, additional, Lotti, P, additional, Marquínez-Duran, G, additional, Martel, I, additional, Miyatake, H, additional, Mukai, M, additional, Nakao, T, additional, Nicoletto, M, additional, Pakou, A, additional, Rusek, K, additional, Sakaguchi, Y, additional, Sánchez-Benítez, A M, additional, Sava, T, additional, Sgouros, O, additional, Soukeras, V, additional, Soramel, F, additional, Stiliaris, E, additional, Stroe, L, additional, Teranishi, T, additional, Toniolo, N, additional, Wakabayashi, Y, additional, Watanabe, Y X, additional, Yang, L, additional, Yang, Y Y, additional, and Zhang, H Q, additional

Published

2020

26. Sensors for the CDF Run2b silicon detector

Author

Akimoto, T., Aoki, M., Azzi, P., Bacchetta, N., Behari, S., Benjamin, D., Bisello, D., Bolla, G., Booth, P., Bortoletto, D., Burghard, A., Busetto, G., Cabrera, S., Canepa, A., Cardoso, G., Chertok, M., Ciobanu, C.I., Cooke, P., Derylo, G., Fang, I., Feng, E.J., Fernandez, J.P., Flaugher, B., Freeman, J., Galtieri, L., Galyardt, J., Garcia-Sciveres, M., Giurgiu, G., Gorelov, I., Haber, C., Hale, D., Hara, K., Harr, R., Hill, C., Hoeferkamp, M., Hoff, J., Holbrook, B., Hong, S.C., Hrycyk, M., Hsiung, T.H., Incandela, J., Jeon, E.J., Joo, K.K., Junk, T., Kahkola, H., Karjalainen, S., Kim, S., Kobayashi, K., Kong, D.J., Krieger, B., Kruse, M., Kyre, S., Lander, R., Landry, T., Lauhakangas, R., Lee, J., Lu, R.-S., Lujan, P.J., Lukens, P., Mandelli, E., Manea, C., Maksimovic, P., Merkel, P., Min, S.N., Moccia, S., Nakamura, Y., Nakano, I., Naoumov, D., Nelson, T., Nord, B., Novak, J., Okusawa, T., Orava, R., Orlov, Y., Osterberg, K., Pantano, D., Pavlicek, V., Pellett, D., Pursley, J., Riipinen, P., Schuyler, B., Seidel, S., Shenai, A., Soha, A., Stuart, D., Tanaka, R., Tavi, M., Von der Lippe, H., Walder, J.-P., Wang, Z., Watje, P., Weber, M., Wester, W., Yamamoto, Kenichi, Yang, Y.C., Yao, W., Yarema, R., Yoshitama, H., Yun, J.C., Zetti, F., Zimmerman, T., Zimmermann, S., and Zucchelli, S.

Subjects

Hamamatsu Photonic Systems -- Product development, Silicon diodes -- Product development, Photographic industry -- Product development, Sensors -- Usage, Business, Electronics, Electronics and electrical industries

Abstract

We describe the characteristics of silicon microstrip sensors fabricated by Hamamatsu Photonics for the CDF Run 2b silicon detector. A total of 953 sensors, including 117 prototype sensors, have been produced and tested. Five sensors were irradiated with neutrons up to 1.4 x [10.sup.14] n/[cm.sup.2] as a part of the sensor quality assurance program. The electrical and mechanical characteristics are found to be superior in all aspects and fulfill our specifications. We comment on charge-up susceptibility of the sensors that employ a (100) crystal structure.

Published

2004

27. CDF Run IIb silicon detector: electrical performance and deadtime-less operation

Author

Akimoto, T., Aoki, M., Azzi, P., Bacchetta, N., Behari, S., Benjamin, D., Bisello, D., Bolla, G., Bortoletto, D., Busetto, G., Cabrera, S., Canepa, A., Cardoso, G., Chertok, M., Ciobanu, C.I., Derylo, G., Fang, I., Feng, E.J., Fernandez, J.P., Flaugher, B., Freeman, J., Galtieri, L., Galyardt, J., Garcia-Sciveres, M., Giurgiu, G., Haber, C., Hale, D., Hara, K., Harr, R., Hill, C., Hoff, J., Holbrook, B., Hong, S.C., Hrycyk, M., Hsiung, T.H., Incandela, J., Jeon, E.J., Joo, K.K., Junk, T., Kahkola, H., Karjalainen, S., Kim, S., Kobayashi, K., Kong, D.J., Krieger, B., Kruse, M., Kuznetsova, N., Kyre, S., Lander, R., Landry, T., Lauhakangas, R., Lee, J., Lu, R.-S., Lujan, P., Lukens, P., Mandelli, E., Manea, C., Maksimovic, P., Merkel, P., Min, S.N., Moccia, S., Nakano, I., Nelson, T., Nord, B., Novak, J., Okusawa, T., Orava, R., Orlov, Y., Osterberg, K., Pantano, D., Pavlicek, V., Pellett, D., Pursley, J., Riipinen, P., Schuyler, B., Shenai, A., Soha, A., Stuart, D., Tanaka, R., Tavi, M., Von der Lippe, H., Walder, J.-P., Wang, Z., Weber, Marc, Wester, W., Yamamoto, Kenichi, Yang, Y.C., Yao, W., Yarema, R., Yun, J.C., Zetti, F., Zimmerman, T., Zimmermann, S., and Zucchelli, S.

Subjects

Nuclear physics -- Research, Detectors, Business, Electronics, Electronics and electrical industries

Abstract

The main building block and readout unit of the planned CDF Run IIb silicon detector is a 'stave,' a highly integrated mechanical, thermal, and electrical structure. One of its characteristic features is a copper-on-Kapton flexible cable for power, high voltage, data transmission, and control signals that is placed directly below the silicon microstrip sensors. The dense packaging makes deadtime-less operation of the stave a challenge since coupling of bus cable activity into the silicon sensors must be suppressed efficiently. The stave design features relevant for deadtime-less operation are discussed. The electrical performance achieved with stave prototypes is presented. Index Terms--CDF, deadtime-less, Run IIb, silicon tracker, SVX4.

Published

2004

28. The CDF Run IIb Silicon Detector: Design, preproduction, and performance

Author

Akimoto, T., Aoki, M., Azzi, P., Bacchetta, N., Behari, S., Benjamin, D., Bisello, D., Bolla, G., Bortoletto, D., Burghard, A., Busetto, G., Cabrera, S., Canepa, A., Cardoso, G., Chertok, M., Ciobanu, C.I., Derylo, G., Fang, I., Feng, E.J., Fernandez, J.P., Flaugher, B., Freeman, J., Galtieri, L., Galyardt, J., Garcia-Sciveres, M., Giurgiu, G., Gorelov, I., Haber, C., Hale, D., Hara, K., Harr, R., Hill, C., Hoeferkamp, M., Hoff, J., Holbrook, B., Hong, S.C., Hrycyk, M., Hsiung, T.H., Incandela, J., Jeon, E.J., Joo, K.K., Junk, T., Kahkola, H., Karjalainen, S., Kim, S., Kobayashi, K., Kong, D.J., Krieger, B., Kruse, M., Kuznetsova, N., Kyre, S., Lander, R., Landry, T., Lauhakangas, R., Lee, J., Lu, R.-S., Lujan, P., Lukens, P., Mandelli, E., Manea, C., Maksimovic, P., Merkel, P., Min, S.N., Moccia, S., Nakano, I., Naoumov, D., Nelson, T., Nord, B., Novak, J., Okusawa, T., Orava, R., Orlov, Y., Osterberg, K., Pantano, D., Pavlicek, V., Pellett, D., Pursley, J., Riipinen, P., Schuyler, B., Seidel, S., Shenai, A., Soha, A., Stuart, D., Tanaka, R., Tavi, M., Von der Lippe, H., Walder, J.-P., Wang, Z., Watje, P., Weber, Marc, Wester, W., Yamamoto, K., Yang, Y.C., Yao, W., Yarema, R., Yun, J.C., Zetti, F., Zimmerman, T., Zimmermann, S., and Zucchelli, S.

Published

2006

29. Nuclear analyses of the Pietroasa gold hoard

Author

Cojocaru, V., Be§liu, C., and Manea, C. A.

Published

1999

30. Microstructure characterization of HfNbTaTiZr High Entropy Alloy Processed in Solid State

Author

Manea, C A, primary, Geambazu, L E, additional, Bololoi, R V, additional, Mateş, I, additional, Miculescu, F, additional, Sohaciu, M G, additional, and Csaki, I, additional

Published

2020

31. The HEPD apparatus for the CSES mission

Author

Panico, Beatrice, primary, Osteria, G., additional, Perfetto, F., additional, Scotti, V., additional, Cipollone, P., additional, De Donato, C., additional, De Santis, C., additional, Marcelli, L., additional, Masciantonio, G., additional, Mergè, M., additional, Palma, F., additional, Picozza, P., additional, Sotgiu, A., additional, Sparvoli, R., additional, Contin, A., additional, Guadalini, C., additional, Laurenti, G., additional, Lolli, M., additional, Palmonari, F., additional, Patrizii, L., additional, Pozzato, M., additional, Ricci, M., additional, Spataro, B., additional, Burger, W.J., additional, Battiston, R., additional, Follega, F.M., additional, Iuppa, R., additional, Lazzizzera, I., additional, Manea, C., additional, Rashevskaya, I., additional, Ricci, E., additional, Vitale, V., additional, Ambrosi, G., additional, Ionica, M., additional, Sposito, M., additional, Bartocci, S., additional, Conti, L., additional, Castellini, G., additional, Pacini, L., additional, and Ricciarini, S.B., additional

Published

2020

32. Status and performance of the High Energy Particle Detector (HEPD) on-board the CSES-01 satellite

Author

Sotgiu, A, Ambrosi, G, Battiston, R, Bartocci, S, Basara, L, Burger, W, Campana, D, Carfora, L, Casolino, M, Castellini, G, Cipollone, P, Conti, L, Contin, A, De Donato, C, De Persio, F, De Santis, C, Di Ruzza, B, F M, Follega, Guandalini, C, Ionica, M, Iuppa, R, Laurenti, G, Lazzizzera, I, Lolli, M, Manea, C, Marcelli, L, Martucci, M, Masciantonio, G, Mergé, M, Osteria, G, Pacini, L, Palma, F, Palmonari, F, Panico, B, Parmentier, A, Patrizii, L, Perfetto, F, Picozza, P, Piersanti, M, Pozzato, M, Puel, M, Rashevskaya, I, Ricci, E, Ricci, M, Ricciarini, S, Scotti, V, Sparvoli, R, Spataro, B, Vitale, V, Zuccon, P, and Zoffoli, S

Published

2019

33. Elastic scattering for the B 8 and Be 7 + Pb 208 systems at near-Coulomb barrier energies

Author

Mazzocco, M., Keeley, N., Boiano, A., Boiano, C., La Commara, M., Manea, C., Parascandolo, C., Pierroutsakou, D., Fernández García, Juan Pablo, Zhang, H. Q., Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, Polish National Science Centre. Poland, Ministry of Education, Culture, Sports, Science and Technology (MEXT). Japan, Consejo Nacional de Ciencia y Tecnología (CONACYT). México, and Universidad Nacional Autónoma de México (DGAPA)

Abstract

The elastic scattering of the weakly bound radioactive nuclei B8 and Be7 from a Pb208 target was measured for the first time in the energy range around the Coulomb barrier. The data were analyzed using the optical model and the continuum discretized coupled channels (CDCC) formalisms. The reaction cross sections extracted from the optical model fits clearly indicate a remarkably enhanced reaction probability for the very weakly bound B8 (Sp=137.5keV) compared to similar mass nuclei interacting with the same target nucleus. CDCC calculations assuming a He3+He4 cluster model well described the Be7 experimental elastic scattering angular distributions, whereas the use of a Be7+p cluster model of B8 with an inert Be7 core gave a relatively poor description of the corresponding experimental data, suggesting that this model may be too simplistic and the possibility of core excitation should not be ignored. Polish National Science Centre 2014/14/M/ST2/00738 Ministry of Education, Culture, Sports, Science and Technology (MEXT) 16K05369, 19K03883 Consejo Nacional de Ciencia y Tecnología (CONACYT) LN-294537 Universidad Nacional Autónoma de México IA103218

Published

2019

34. Elastic scattering for the B 8 and Be 7 + Pb 208 systems at near-Coulomb barrier energies

Author

Mazzocco, M. Keeley, N. Boiano, A. Boiano, C. La Commara, M. Manea, C. Parascandolo, C. Pierroutsakou, D. Signorini, C. Strano, E. Torresi, D. Yamaguchi, H. Kahl, D. Acosta, L. Di Meo, P. Fernandez-Garcia, J.P. Glodariu, T. Grebosz, J. Guglielmetti, A. Hirayama, Y. Imai, N. Ishiyama, H. Iwasa, N. Jeong, S.C. Jia, H.M. Kim, Y.H. Kimura, S. Kubono, S. La Rana, G. Lin, C.J. Lotti, P. Marquínez-Durán, G. Martel, I. Miyatake, H. Mukai, M. Nakao, T. Nicoletto, M. Pakou, A. Rusek, K. Sakaguchi, Y. Sánchez-Benítez, A.M. Sava, T. Sgouros, O. Soukeras, V. Soramel, F. Stiliaris, E. Stroe, L. Teranishi, T. Toniolo, N. Wakabayashi, Y. Watanabe, Y.X. Yang, L. Yang, Y.Y. Zhang, H.Q.

Abstract

The elastic scattering of the weakly bound radioactive nuclei B8 and Be7 from a Pb208 target was measured for the first time in the energy range around the Coulomb barrier. The data were analyzed using the optical model and the continuum discretized coupled channels (CDCC) formalisms. The reaction cross sections extracted from the optical model fits clearly indicate a remarkably enhanced reaction probability for the very weakly bound B8 (Sp=137.5keV) compared to similar mass nuclei interacting with the same target nucleus. CDCC calculations assuming a He3+He4 cluster model well described the Be7 experimental elastic scattering angular distributions, whereas the use of a Be7+p cluster model of B8 with an inert Be7 core gave a relatively poor description of the corresponding experimental data, suggesting that this model may be too simplistic and the possibility of core excitation should not be ignored. © 2019 American Physical Society. UK.

Published

2019

35. Elastic scattering of 17O ions from 58Ni at near-barrier energies

Author

Torresi D., Strano E., Mazzocco M., Boiano A., Boiano C., Di Meo P., Guglielmetti A., La Commara M., Manea C., Nicoletto M., Parascandolo C., Parascandolo L., Pierroutsakou D., Sandoli M., Signorini C., Soramel F., Toniolo N., Grebosz J., Filipescu D., Gheorghe A., Glodariu T., Stroe L., Miyatake H., Watanabe Y., Jeong S., Kim Y.H., Pakou A., Sgouros O., Soukeras V., and Zerva K.

Subjects

Physics, QC1-999

Abstract

Elastic scattering has been studied for the collisions induced by 17O on 58Ni target at energies around and above the Coulomb barrier. The elastic scattering angular distributions were measured for several energies and were analyzed within the framework of the optical model to obtain total reaction cross sections. The reaction cross-sections of the tightly bound 17O were compared with those of weakly bound 17F on the same targets in order to investigate the effects of the low binding energy in the reaction dynamics.

Published

2014

36. The OPERA muon spectrometer tracking electronics

Author

Ambrosio, M., Barichello, G., Brugnera, R., Carrara, E., Consiglio, L., Corradi, A., Dal Corso, F., Dusini, S., Felici, G., Garfagnini, A., Manea, C., Masone, V., Paoloni, A., Paoluzzi, G., Papalino, G., Parascandolo, P., Sorrentino, G., Spinetti, M., Stanco, L., Terranova, F., and Votano, L.

Published

2004

37. The CDF Run IIb silicon detector

Author

Aoki, M., Bacchetta, N., Behari, S., Benjamin, D., Bisello, D., Bolla, G., Bortoletto, D., Burghard, A., Busetto, G., Cabrera, S., Canepa, A., Castro, A., Cardoso, G., Chertok, M., Ciobanu, C., Derylo, G., Fang, I., Flaugher, B., Freeman, J., Galtieri, L., Galyardt, J., Garcia-Sciveres, M., Giurgiu, G., Gorelov, I., Haber, C., Hara, K., Hoeferkamp, M., Holbrook, B., Hrycyk, M., Junk, T., Kim, S., Kobayashi, K., Krieger, B., Kruse, M., Lander, R., Lu, R.-S., Lukens, P., Malferrari, L., Manea, C., Margotti, A., Maksimovic, P., Merkel, P., Moccia, S., Nakano, I., Naoumov, D., Novak, J., Okusawa, T., Orlov, Y., Pancaldi, G., Pantano, D., Pavlicek, V., Pellett, D., Seidel, S., Semeria, F., Takei, Y., Tanaka, R., Wang, Z., Watje, P., Weber, M., Wester, W., Wilkes, T., Yamamoto, K., Yao, W., Zimmermann, S., Zucchelli, S., and Zucchini, A.

Published

2004

38. Elastic scattering for the B 8 and Be 7 + Pb 208 systems at near-Coulomb barrier energies

Author

Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, Polish National Science Centre. Poland, Ministry of Education, Culture, Sports, Science and Technology (MEXT). Japan, Consejo Nacional de Ciencia y Tecnología (CONACYT). México, Universidad Nacional Autónoma de México (DGAPA), Mazzocco, M., Keeley, N., Boiano, A., Boiano, C., La Commara, M., Manea, C., Parascandolo, C., Pierroutsakou, D., Fernández García, Juan Pablo, Zhang, H. Q., Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear, Polish National Science Centre. Poland, Ministry of Education, Culture, Sports, Science and Technology (MEXT). Japan, Consejo Nacional de Ciencia y Tecnología (CONACYT). México, Universidad Nacional Autónoma de México (DGAPA), Mazzocco, M., Keeley, N., Boiano, A., Boiano, C., La Commara, M., Manea, C., Parascandolo, C., Pierroutsakou, D., Fernández García, Juan Pablo, and Zhang, H. Q.

Abstract

The elastic scattering of the weakly bound radioactive nuclei B8 and Be7 from a Pb208 target was measured for the first time in the energy range around the Coulomb barrier. The data were analyzed using the optical model and the continuum discretized coupled channels (CDCC) formalisms. The reaction cross sections extracted from the optical model fits clearly indicate a remarkably enhanced reaction probability for the very weakly bound B8 (Sp=137.5keV) compared to similar mass nuclei interacting with the same target nucleus. CDCC calculations assuming a He3+He4 cluster model well described the Be7 experimental elastic scattering angular distributions, whereas the use of a Be7+p cluster model of B8 with an inert Be7 core gave a relatively poor description of the corresponding experimental data, suggesting that this model may be too simplistic and the possibility of core excitation should not be ignored.

Published

2019

39. The HEPD particle detector and the EFD electric field detector for the CSES satellite

Author

Alfonsi, L., Ambroglini, F., Ambrosi, G., Ammendola, R., Assante, D., Badoni, D., Belyaev, V. A., Burger, William Jerome, Cafagna, A., Cipollone, P., Consolini, G., Conti, L., Contin, A., Angelis, E. De, Donato, C. De, Franceschi, G. De, Santis, A. De, Santis, C. De, Diego, P., Durante, Marco, Fornaro, C., Guandalini, C., Laurenti, G., Laurenza, M., Lazzizzera, Ignazio, Lolli, M., Manea, C., Marcelli, L., Marcucci, F., Masciantonio, G., Osteria, G., Palma, Francesco, Palmonari, F., Panico, B., Patrizii, L., Picozza, P., Pozzato, Michele, Rashevskaya, I., Ricci, M., Rovituso, Marta, Scotti, V., Sotgiu, A, Sparvoli, R., Spataro, B., Spogli, L., Tommasino, Francesco, Ubertini, P., Vannaroni, G., Xuhui, S., Zoffoli, S., CSES LIMADOU Collaboration, Alfonsi, L., Ambroglini, F., Ambrosi, G., Ammendola, R., Assante, D., Badoni, D., Belyaev, V.A., Burger, W.J., Cafagna, A., Cipollone, P., Consolini, G., Conti, L., Contin, A., Angelis, E.De, Donato, C.De, Franceschi, G.De, Santis, A.De, Santis, C.De, Diego, P., Durante, M., Fornaro, C., Guandalini, C., Laurenti, G., Laurenza, M., Lazzizzera, I., Lolli, M., Manea, C., Marcelli, L., Marcucci, F., Masciantonio, G., Osteria, G., Palma, F., Palmonari, F., Panico, B., Patrizii, L., Picozza, P., Pozzato, M., Rashevskaya, I., Ricci, M., Rovituso, M., Scotti, V., Sotgiu, A., Sparvoli, R., Spataro, B., Spogli, L., Tommasino, F., Ubertini, P., Vannaroni, G., Xuhui, S., Zoffoli, S., Belyaev, V. A., Burger, W. J., Angelis, E. De, Donato, C. De, Franceschi, G. De, Santis, A. De, Santis, C. De, Lolli, Franco, Sparvoli, Roberta, and Tommasino, Simona

Subjects

Earthquake, 010504 meteorology & atmospheric sciences, Meteorology, Magnetosphere, Cosmic ray, Space weather, 01 natural sciences, Particle detector, symbols.namesake, Electric Field Detector, 0103 physical sciences, Particle Detector, Ionosphere, Space Weather, Cosmic rays, Seismic-precursors, 010303 astronomy & astrophysics, 0105 earth and related environmental sciences, Settore FIS/01, Physics, Radiation, Solar energetic particles, Detector, Charged particle, Computational physics, Van Allen radiation belt, Physics::Space Physics, symbols, Electric field detector, Seismic-precursor

Abstract

The CSES satellite, developed by Chinese (CNSA) and Italian (ASI) space Agencies, will investigate iono-magnetospheric disturbances (induced by seismicity and electromagnetic emissions of tropospheric and anthropogenic origin); will monitor the temporal stability of the inner Van Allen radiation belts and will study the solar-terrestrial coupling by measuring fluxes of cosmic rays and solar energetic particles. In particular the mission aims at confirming the existences (claimed from several analyses) of a temporal correlations between the occurrence of earthquakes and the observation in space of electromagnetic disturbances, plasma fluctiations and anomalous fluxes of high-energy particles precipitating from the inner Van Allen belt. CSES will be launched in the summer of 2017 with a multi-instruments payload able to measure: e.m. fields, charged particles, plasma, TEC, etc. The Italian LIMADOU collaboration will provide the High-Energy Particle Detector (HEPD), designed for detecting electrons (3–200 MeV) and proton (30–300 MeV)), and participates to develop the Electric Field Detector (EFD) conceived for measuring electric field from ∼DC up to 5 MHz.

Published

2017

40. Bromelain’s penetration into the blood and sinonasal mucosa in patients with chronic rhinosinusitis|Farmacocinetica della bromelina nel sangue e nella mucosa rinosinusale nei pazienti con rinosinusite cronica

Author

Passali, D, Passali, Gc, Bellussi, Lm, Sarafoleanu, C, Loglisci, M, Manea, C, Iosif, C, and Passali, Fm

Subjects

Adult, Male, Bromelain, Chronic rhinosinusitis, Immunohistochemistry, Aged, Bromelains, Chronic Disease, Female, Humans, Middle Aged, Nasal Mucosa, Paranasal Sinuses, Rhinitis, Sinusitis, Tissue Distribution, Young Adult, Settore MED/31 - Otorinolaringoiatria

Published

2018

41. Be-7 and B-8 reaction dynamics at Coulomb barrier energies

Author

Strano, E. Mazzocco, M. Boiano, A. Boiano, C. La Commara, M. Manea, C. Parascandolo, C. Pierroutsakou, D. and Signorini, C. Torresi, D. Yamaguchi, H. Kahl, D. Acosta, L. Di Meo, P. Fernandez-Garcia, J. P. Glodariu, T. and Grebosz, J. Guglielmetti, A. Imai, N. Hirayama, Y. and Ishiyama, H. Iwasa, N. Jeong, S. C. Jia, H. M. Keeley, N. Kim, Y. H. Kimura, S. Kubono, S. Lay, J. A. Lin, C. J. Marquinez-Duran, G. Martel, I. Miyatake, H. Mukai, M. Nakao, T. Nicoletto, M. Pakou, A. Rusek, K. and Sakaguchi, Y. Sanchez-Benitez, A. M. Sava, T. Sgouros, O. and Stefanini, C. Soramel, F. Soukeras, V. Stiliaris, E. and Stroe, L. Teranishi, T. Toniolo, N. Wakabayashi, Y. and Watanabe, Y. X. Yang, L. Yang, Y. Y.

Abstract

We investigated the reaction dynamics induced by the Be-7, B-8+Pb-208 collisions at energies around the Coulomb barrier. Charged particles originated by both the collisions were detected by means of 6 Delta E-E-res telescopes of a newly developed detector array. Experimental data were analysed within the framework of the Optical Model and the total reaction cross-sections were compared together and with the Li-6,Li-7+Pb-208 collision data. According to the preliminary results, Be-7 nucleus reactivity is rather similar to the Li-7 one whereas the B-8+Pb-208 total reaction cross section appears to be much larger than those measured for reactions induced by the other weakly-bound projectiles on the same target.

Published

2018

42. Reaction Dynamics for the Systems Be-7,B-8 + Pb-208 at Coulomb Barrier Energies

Author

Mazzocco, M. Boiano, A. Boiano, C. La Commara, M. Manea, C. Parascandolo, C. Pierroutsakou, D. Signorini, C. and Strano, E. Torresi, D. Yamaguchi, H. Kahl, D. Acosta, L. and Di Meo, P. Fernandez-Garcia, J. P. Glodariu, T. Grebosz, J. Guglielmetti, A. Imai, N. Hirayama, Y. Ishiyama, H. and Iwasa, N. Jeong, S. C. Jia, H. M. Keeley, N. Kim, Y. H. Kimura, S. Kubono, S. Lay, J. A. Lin, C. J. and Marquinez-Duran, G. Martel, I. Miyatake, H. Mukai, M. and Nakao, T. Nicoletto, M. Pakou, A. Rusek, K. Sakaguchi, Y. Sanchez-Benitez, A. M. Sava, T. Sgouros, O. Soramel, F. Soukeras, V. Stiliaris, E. Stroe, L. Teranishi, T. and Toniolo, N. Wakabayashi, Y. Watanabe, Y. X. Yang, L. and Yang, Y. Y.

Abstract

this contribution we describe the first results obtained for the investigation of the elastic scattering process in the reactions induced by the Radioactive Ion Beams Be-7 and B-8 on a Pb-208 target at Coulomb barrier energies. The experimental data were analyzed within the framework of the optical model in order to extract the total reaction cross section. The comparison with data available in literature for reactions induced on Pb-208 by light ions in the mass range A = 6-8 shows that the loosely-bound( 8)B has the largest reactivity.

Published

2018

43. Reaction Dynamics for the Systems 7Be,8B + 208Pb at Coulomb Barrier Energies

Author

Mazzocco, M., Boiano, A., Boiano, C., La Commara, M., Manea, C., Parascandolo, C., Fernández García, Juan Pablo, and Universidad de Sevilla. Departamento de Física Atómica, Molecular y Nuclear

Abstract

In this contribution we describe the first results obtained for the investigation of the elastic scattering process in the reactions induced by the Radioactive Ion Beams 7Be and 8B on a 208Pb target at Coulomb barrier energies. The experimental data were analyzed within the framework of the optical model in order to extract the total reaction cross section. The comparison with data available in literature for reactions induced on 208Pb by light ions in the mass range A = 6-8 shows that the loosely-bound 8B has the largest reactivity.

Published

2018

44. Space-Weather capabilities and preliminary results of the High Energy Particle Detector (HEPD) on-board the CSES-01 satellite

Author

Martucci, Matteo, primary, Ambrosi, G., additional, Battiston, R., additional, Bartocci, S., additional, Basara, L., additional, Burger, W.J, additional, Campana, D., additional, Carfora, L., additional, Casolino, M., additional, Castellini, G., additional, Cipollone, P., additional, Conti, L., additional, Contin, A., additional, De Donato, C, additional, De Persio, F, additional, De Santis, C, additional, Di Ruzza, B, additional, Follega, F.M, additional, Guandalini, C., additional, Ionica, M., additional, Iuppa, R., additional, Laurenti, G., additional, Lazzizzera, I., additional, Lolli, M., additional, Manea, C., additional, Marcelli, L., additional, Masciantonio, G., additional, Mergé, M., additional, Osteria, G., additional, Pacini, L., additional, Palma, F., additional, Palmonari, F., additional, Panico, B., additional, Parmentier, A., additional, Patrizii, L., additional, Perfetto, F., additional, Picozza, P., additional, Piersanti, M., additional, Pozzato, M., additional, Puel, M., additional, Rashevskaya, I., additional, Ricci, E., additional, Ricci, Marco, additional, Ricciarini, S., additional, Scotti, V., additional, Sotgiu, A., additional, Sparvoli, R., additional, Spataro, B., additional, Vitale, V., additional, Zuccon, P., additional, and Zoffoli, S., additional

Published

2019

45. Status and performance of the High Energy Particle Detector (HEPD) on-board the CSES-01 satellite

Author

Sotgiu, Alessandro, primary, Ambrosi, G., additional, Battiston, R., additional, Bartoccia, S., additional, Basara, L., additional, Burger, W. J, additional, Campana, D., additional, Carfora, L., additional, Casolino, M., additional, Castellini, G., additional, Cipollone, P., additional, Conti, L., additional, Contin, A., additional, De Donato, C, additional, De Persio, F, additional, De Santis, C, additional, Di Ruzza, B, additional, Follega, F. M, additional, Guandalini, C., additional, Ionica, M., additional, Iuppa, R., additional, Laurenti, G., additional, Lazzizzera, I., additional, Lolli, M., additional, Manea, C., additional, Marcelli, L., additional, Martucci, M., additional, Masciantonio, G., additional, Mergé, M., additional, Osteria, G., additional, Pacini, L., additional, Palma, F., additional, Palmonari, F., additional, Panico, B., additional, Parmentier, A., additional, Patrizii, L., additional, Perfetto, F., additional, Picozza, P., additional, Piersanti, M., additional, Pozzato, M., additional, Puel, M., additional, Rashevskaya, I., additional, Ricci, E., additional, Ricci, Marco, additional, Ricciarini, S., additional, Scotti, V., additional, Sparvoli, R., additional, Spataro, B., additional, Vitale, V., additional, Zuccon, P., additional, and Zoffoli, S., additional

Published

2019

46. Al0.5CrCoFeNi high entropy alloy for Geothermal Environment

Author

Geambazu, L E, primary, Manea, C A, additional, Csaki, I, additional, and Miculescu, F, additional

Published

2019

47. A compact Time-Of-Flight detector for radiation measurements in a space habitat: LIDAL–ALTEA

Author

Morone, M.C., primary, Berucci, C., additional, Cipollone, P., additional, De Donato, C., additional, Di Fino, L., additional, Iannilli, M., additional, La Tessa, C., additional, Manea, C., additional, Masciantonio, G., additional, Messi, R., additional, Narici, L., additional, Nobili, G., additional, Pecchi, D., additional, Picozza, P., additional, Reali, E., additional, Rizzo, A., additional, Rovituso, M., additional, Tommasino, F., additional, and Vitali, G., additional

Published

2019

48. Elastic scattering for the B8 and Be7+Pb208 systems at near-Coulomb barrier energies

Author

Mazzocco, M., primary, Keeley, N., additional, Boiano, A., additional, Boiano, C., additional, La Commara, M., additional, Manea, C., additional, Parascandolo, C., additional, Pierroutsakou, D., additional, Signorini, C., additional, Strano, E., additional, Torresi, D., additional, Yamaguchi, H., additional, Kahl, D., additional, Acosta, L., additional, Di Meo, P., additional, Fernandez-Garcia, J. P., additional, Glodariu, T., additional, Grebosz, J., additional, Guglielmetti, A., additional, Hirayama, Y., additional, Imai, N., additional, Ishiyama, H., additional, Iwasa, N., additional, Jeong, S. C., additional, Jia, H. M., additional, Kim, Y. H., additional, Kimura, S., additional, Kubono, S., additional, La Rana, G., additional, Lin, C. J., additional, Lotti, P., additional, Marquínez-Durán, G., additional, Martel, I., additional, Miyatake, H., additional, Mukai, M., additional, Nakao, T., additional, Nicoletto, M., additional, Pakou, A., additional, Rusek, K., additional, Sakaguchi, Y., additional, Sánchez-Benítez, A. M., additional, Sava, T., additional, Sgouros, O., additional, Soukeras, V., additional, Soramel, F., additional, Stiliaris, E., additional, Stroe, L., additional, Teranishi, T., additional, Toniolo, N., additional, Wakabayashi, Y., additional, Watanabe, Y. X., additional, Yang, L., additional, Yang, Y. Y., additional, and Zhang, H. Q., additional

Published

2019

49. Scientific Goals and In-orbit Performance of the High-energy Particle Detector on Board the CSES

Author

Picozza, P., primary, Battiston, R., additional, Ambrosi, G., additional, Bartocci, S., additional, Basara, L., additional, Burger, W. J., additional, Campana, D., additional, Carfora, L., additional, Casolino, M., additional, Castellini, G., additional, Cipollone, P., additional, Conti, L., additional, Contin, A., additional, De Donato, C., additional, De Santis, C., additional, Follega, F. M., additional, Guandalini, C., additional, Ionica, M., additional, Iuppa, R., additional, Laurenti, G., additional, Lazzizzera, I., additional, Lolli, M., additional, Manea, C., additional, Marcelli, L., additional, Martucci, M., additional, Masciantonio, G., additional, Mergé, M., additional, Osteria, G., additional, Pacini, L., additional, Palma, F., additional, Palmonari, F., additional, Panico, B., additional, Parmentier, A., additional, Patrizii, L., additional, Perfetto, F., additional, Piersanti, M., additional, Pozzato, M., additional, Puel, M., additional, Rashevskaya, I., additional, Ricci, E., additional, Ricci, M., additional, Ricciarini, S., additional, Scotti, V., additional, Sotgiu, A., additional, Sparvoli, R., additional, Spataro, B., additional, Vitale, V., additional, Zuccon, P., additional, and Zoffoli, S., additional

Published

2019

50. Does the breakup process affect the reaction dynamics for the systems 17O, 17F + 58Ni at Coulomb barrier energies?

Author

Parascandolo C., Pakou A., Nicoletto M., Musumarra A., Molini P., Mazzocchi C., Manea C., Lotti P., Lattuada M., Inglima G., La Commara M., Guglielmetti A., Grebosz J., Galet G., Fortunato L., Filipescu D., Figuera P., Farinon F., De Rosa A., Di Meo P., Corti D., Castellani L., Boiano C., Boiano A., Glodariu T., Pierroutsakou D., Signorini C., Mazzocco M., Patronis N., Romoli M., Sandoli M., Scuderi V., Silvestri R., Soramel F., Stroe L., Toniolo N., Torresi D., Vardaci E., and Vitturi A.

Subjects

Physics, QC1-999

Abstract

The scattering processes of two mirror projectiles, the well bound 17O (Sn = 4.143 MeV) and the loosely bound radioactive 17F (Sp = 0.600 MeV), on the proton closed shell target 58Ni were measured at several energies around the Coulomb barrier. The experimental data were analyzed within the framework of the optical model to extract the reaction cross section and to investigate the role played by direct reaction channels at near-barrier energies. The comparison shows a similar behaviour for the two A = 17 projectiles despite their very different binding energies and suggests a rather small effect of the 17F breakup channel on the reaction dynamics.

Published

2011