Your search keyword '"D. Cavazza"' showing total 25 results

1. Measurement of the cosmic charged particle rate at sea level in the latitude range 35 $$^{\circ }$$ ∘ $$\div $$ ÷ 82 $$^{\circ }$$ ∘ N with the PolarquEEEst experiment

Author

M. Abbrescia, C. Avanzini, L. Baldini, R. Baldini Ferroli, G. Batignani, M. Battaglieri, S. Boi, E. Bossini, F. Carnesecchi, D. Cavazza, C. Cicalò, L. Cifarelli, F. Coccetti, E. Coccia, A. Corvaglia, D. De Gruttola, S. De Pasquale, L. Galante, M. Garbini, G. Gemme, I. Gnesi, E. Gramstad, S. Grazzi, E. S. Håland, D. Hatzifotiadou, P. La Rocca, Z. Liu, L. Lombardo, G. Mandaglio, A. Margotti, G. Maron, M. N. Mazziotta, A. Mulliri, R. Nania, F. Noferini, F. Nozzoli, F. Ould-Saada, F. Palmonari, M. Panareo, M. P. Panetta, R. Paoletti, M. Parvis, C. Pellegrino, L. Perasso, O. Pinazza, C. Pinto, S. Pisano, F. Riggi, G. Righini, C. Ripoli, M. Rizzi, G. Sartorelli, E. Scapparone, M. Schioppa, G. Scioli, A. Scribano, M. Selvi, M. Taiuti, G. Terreni, A. Trifirò, M. Trimarchi, C. Vistoli, L. Votano, M. C. S. Williams, A. Zichichi, and R. Zuyeuski

Subjects

Astrophysics, QB460-466, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract After its successful campaign of measurements beyond the Polar Arctic Circle, the PolarquEEEst experiment measured the cosmic charged particle rate at sea level in a latitude interval between 35 $$^{\circ }$$ ∘ N and 82 $$^{\circ }$$ ∘ N. In this paper, these measurements are described and the corresponding results are discussed.

Published

2023

2. Observation of Rayleigh-Lamb waves generated by the 2022 Hunga-Tonga volcanic eruption with the POLA detectors at Ny-Ålesund

Author

M. Abbrescia, C. Avanzini, L. Baldini, R. Baldini Ferroli, G. Batignani, M. Battaglieri, S. Boi, E. Bossini, F. Carnesecchi, M. Casula, D. Cavazza, C. Cicalò, L. Cifarelli, F. Coccetti, E. Coccia, A. Corvaglia, D. De Gruttola, S. De Pasquale, L. Galante, M. Garbini, G. Gemme, I. Gnesi, E. Gramstad, S. Grazzi, E. S. Haland, D. Hatzifotiadou, P. La Rocca, Z. Liu, L. Lombardo, G. Mandaglio, A. Margotti, G. Maron, M. N. Mazziotta, M. Mazzola, A. Mulliri, R. Nania, F. Noferini, F. Nozzoli, F. Ould-Saada, F. Palmonari, M. Panareo, M. P. Panetta, R. Paoletti, M. Parvis, C. Pellegrino, L. Perasso, O. Pinazza, C. Pinto, S. Pisano, F. Riggi, G. Righini, C. Ripoli, M. Rizzi, G. Sartorelli, E. Scapparone, M. Schioppa, G. Scioli, A. Scribano, M. Selvi, M. Taiuti, G. Terreni, A. Trifirò, M. Trimarchi, A. P. Viola, C. Vistoli, L. Votano, M. C. S. Williams, A. Zichichi, and R. Zuyeuski

Subjects

Medicine, Science

Abstract

Abstract The eruption of the Hunga-Tonga volcano in the South Pacific Ocean on January 15, 2022, at about 4:15 UTC, generated a violent explosion, which created atmospheric pressure disturbances in the form of Rayleigh-Lamb waves detected all over the globe. Here we discuss the observation of the Hunga-Tonga shock-wave performed at the Ny-Ålesund Research Station on the Spitsbergen island, by the detectors of the PolarquEEEst experiment and their ancillary sensors. Online pressure data as well as the results of dedicated offline analysis are presented and discussed in details. Results include wave arrival times, wave amplitude measurements and wave velocity calculation. We observed five passages of the shock wave with a significance larger than 3 $$\sigma$$ σ and an amplitude up to 1 hPa. The average propagation velocity resulted to be (308 ± 0.6) m/s. Possible effects of the atmospheric pressure variation associated with the shock-wave multiple passages on the cosmic-ray rate at ground level are also investigated. We did not find any significant evidence of this effect.

Published

2022

3. SiPM-matrix readout of two-phase argon detectors using electroluminescence in the visible and near infrared range

Author

C. E. Aalseth, S. Abdelhakim, P. Agnes, R. Ajaj, I. F. M. Albuquerque, T. Alexander, A. Alici, A. K. Alton, P. Amaudruz, F. Ameli, J. Anstey, P. Antonioli, M. Arba, S. Arcelli, R. Ardito, I. J. Arnquist, P. Arpaia, D. M. Asner, A. Asunskis, M. Ave, H. O. Back, V. Barbaryan, A. Barrado Olmedo, G. Batignani, M. G. Bisogni, V. Bocci, A. Bondar, G. Bonfini, W. Bonivento, E. Borisova, B. Bottino, M. G. Boulay, R. Bunker, S. Bussino, A. Buzulutskov, M. Cadeddu, M. Cadoni, A. Caminata, N. Canci, A. Candela, C. Cantini, M. Caravati, M. Cariello, F. Carnesecchi, A. Castellani, P. Castello, P. Cavalcante, D. Cavazza, S. Cavuoti, S. Cebrian, J. M. Cela Ruiz, B. Celano, R. Cereseto, S. Chashin, W. Cheng, A. Chepurnov, C. Cicalò, L. Cifarelli, M. Citterio, F. Coccetti, V. Cocco, M. Colocci, E. Conde Vilda, L. Consiglio, F. Cossio, G. Covone, P. Crivelli, I. D’Antone, M. D’Incecco, M. D. Da Rocha Rolo, O. Dadoun, M. Daniel, S. Davini, S. De Cecco, M. De Deo, A. De Falco, D. De Gruttola, G. De Guido, G. De Rosa, G. Dellacasa, P. Demontis, S. De Pasquale, A. V. Derbin, A. Devoto, F. Di Eusanio, L. Di Noto, G. Di Pietro, P. Di Stefano, C. Dionisi, G. Dolganov, F. Dordei, M. Downing, F. Edalatfar, A. Empl, M. Fernandez Diaz, C. Filip, G. Fiorillo, K. Fomenko, A. Franceschi, D. Franco, E. Frolov, G. E. Froudakis, N. Funicello, F. Gabriele, A. Gabrieli, C. Galbiati, M. Garbini, P. Garcia Abia, D. Gascón Fora, A. Gendotti, C. Ghiano, A. Ghisi, P. Giampa, R. A. Giampaolo, C. Giganti, M. A. Giorgi, G. K. Giovanetti, M. L. Gligan, O. Gorchakov, M. Grab, R. Graciani Diaz, M. Grassi, J. W. Grate, A. Grobov, M. Gromov, M. Guan, M. B. B. Guerra, M. Guerzoni, M. Gulino, R. K. Haaland, B. R. Hackett, A. Hallin, M. Haranczyk, B. Harrop, E. W. Hoppe, S. Horikawa, B. Hosseini, F. Hubaut, P. Humble, E. V. Hungerford, An. Ianni, A. Ilyasov, V. Ippolito, C. Jillings, K. Keeter, C. L. Kendziora, I. Kochanek, K. Kondo, G. Kopp, D. Korablev, G. Korga, A. Kubankin, R. Kugathasan, M. Kuss, M. La Commara, L. La Delfa, M. Lai, M. Lebois, B. Lehnert, N. Levashko, X. Li, Q. Liqiang, M. Lissia, G. U. Lodi, G. Longo, R. Lussana, L. Luzzi, A. A. Machado, I. N. Machulin, A. Mandarano, S. Manecki, L. Mapelli, A. Margotti, S. M. Mari, M. Mariani, J. Maricic, M. Marinelli, D. Marras, M. Martínez, A. D. Martinez Rojas, M. Mascia, J. Mason, A. Masoni, A. B. McDonald, A. Messina, T. Miletic, R. Milincic, A. Moggi, S. Moioli, J. Monroe, M. Morrocchi, T. Mroz, W. Mu, V. N. Muratova, S. Murphy, C. Muscas, P. Musico, R. Nania, T. Napolitano, A. Navrer Agasson, M. Nessi, I. Nikulin, V. Nosov, J. A. Nowak, A. Oleinik, V. Oleynikov, M. Orsini, F. Ortica, L. Pagani, M. Pallavicini, S. Palmas, L. Pandola, E. Pantic, E. Paoloni, F. Pazzona, S. Peeters, P. A. Pegoraro, K. Pelczar, L. A. Pellegrini, C. Pellegrino, N. Pelliccia, F. Perotti, V. Pesudo, E. Picciau, F. Pietropaolo, A. Pocar, T. R. Pollmann, D. Portaluppi, S. S. Poudel, P. Pralavorio, D. Price, B. Radics, F. Raffaelli, F. Ragusa, M. Razeti, C. Regenfus, A. L. Renshaw, S. Rescia, M. Rescigno, F. Retiere, L. P. Rignanese, C. Ripoli, A. Rivetti, J. Rode, A. Romani, L. Romero, N. Rossi, A. Rubbia, P. Sala, P. Salatino, O. Samoylov, E. Sánchez García, E. Sandford, S. Sanfilippo, M. Sant, D. Santone, R. Santorelli, C. Savarese, E. Scapparone, B. Schlitzer, G. Scioli, E. Segreto, A. Seifert, D. A. Semenov, A. Shchagin, A. Sheshukov, S. Siddhanta, M. Simeone, P. N. Singh, P. Skensved, M. D. Skorokhvatov, O. Smirnov, G. Sobrero, A. Sokolov, A. Sotnikov, R. Stainforth, A. Steri, S. Stracka, V. Strickland, G. B. Suffritti, S. Sulis, Y. Suvorov, A. M. Szelc, R. Tartaglia, G. Testera, T. Thorpe, A. Tonazzo, A. Tosi, M. Tuveri, E. V. Unzhakov, G. Usai, A. Vacca, E. Vázquez-Jáuregui, T. Viant, S. Viel, F. Villa, A. Vishneva, R. B. Vogelaar, J. Wahl, J. J. Walding, H. Wang, Y. Wang, S. Westerdale, R. J. Wheadon, R. Williams, J. Wilson, Ma. M. Wojcik, Ma. Wojcik, S. Wu, X. Xiao, C. Yang, Z. Ye, M. Zuffa, G. Zuzel, and The DarkSide-20k collaboration

Subjects

Astrophysics, QB460-466, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract Proportional electroluminescence (EL) in noble gases is used in two-phase detectors for dark matter searches to record (in the gas phase) the ionization signal induced by particle scattering in the liquid phase. The “standard” EL mechanism is considered to be due to noble gas excimer emission in the vacuum ultraviolet (VUV). In addition, there are two alternative mechanisms, producing light in the visible and near infrared (NIR) ranges. The first is due to bremsstrahlung of electrons scattered on neutral atoms (“neutral bremsstrahlung”, NBrS). The second, responsible for electron avalanche scintillation in the NIR at higher electric fields, is due to transitions between excited atomic states. In this work, we have for the first time demonstrated two alternative techniques of the optical readout of two-phase argon detectors, in the visible and NIR range, using a silicon photomultiplier matrix and electroluminescence due to either neutral bremsstrahlung or avalanche scintillation. The amplitude yield and position resolution were measured for these readout techniques, which allowed to assess the detection threshold for electron and nuclear recoils in two-phase argon detectors for dark matter searches. To the best of our knowledge, this is the first practical application of the NBrS effect in detection science.

Published

2021

4. New high precision measurements of the cosmic charged particle rate beyond the Arctic Circle with the PolarquEEEst experiment

Author

M. Abbrescia, C. Avanzini, M. Arlandoo, G. Balbi, L. Baldini, R. Baldini Ferroli, G. Batignani, M. Battaglieri, S. Boi, D. Cavazza, E. Bossini, F. Carnesecchi, C. Cicalò, L. Cifarelli, F. Coccetti, E. Coccia, A. Corvaglia, D. De Gruttola, S. De Pasquale, F. Fabbri, D. Falchieri, A. Flammini, L. Galante, M. Garbini, G. Gemme, I. Gnesi, E. Gramstad, S. Grazzi, E. S. Håland, D. Hatzifotiadou, P. La Rocca, Z. Liu, L. Lombardo, G. Mandaglio, A. Margotti, G. Maron, M. N. Mazziotta, S. Meneghini, S. A. Millerjord, A. Mulliri, R. Nania, F. Noferini, F. Nozzoli, F. Ould-Saada, F. Palmonari, M. Panareo, M. P. Panetta, R. Paoletti, M. Parvis, C. Pellegrino, F. Riggi, G. Righini, C. Ripoli, M. Rizzi, G. Sartorelli, E. Scapparone, M. Schioppa, G. Scioli, A. Scribano, M. Selvi, G. Serri, S. Squarcia, M. Taiuti, G. Terreni, G. Torromeo, R. Travaglini, A. Trifirò, M. Trimarchi, C. Veri, C. Vistoli, L. Votano, M. C. S. Williams, A. Zichichi, and R. Zuyeuski

Subjects

Astrophysics, QB460-466, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract The goal of the PolarquEEEst experiment was to measure the cosmic charged particle rate at latitudes greater than 66$$^{\circ }$$ ∘ N, where no systematic and accurate measurements at sea level have ever been performed. A latitude range well above the Arctic Circle was explored on board of a sailboat, up to the unprecedented northernmost value of $$82^{\circ }07^{\prime }$$ 82∘07′ N. In this paper a description of the experimental set-up is reported, then the procedures for calibration and data analysis are described in detail. The results show that the rate measured in this latitude range stays constant within a novel accuracy of $$\pm 1$$ ±1 %.

Published

2020

5. Erratum to: New high precision measurements of the cosmic charged particle rate beyond the Arctic Circle with the PolarquEEEst experiment

Author

M. Abbrescia, C. Avanzini, M. Arlandoo, G. Balbi, L. Baldini, R. Baldini Ferroli, G. Batignani, M. Battaglieri, S. Boi, D. Cavazza, E. Bossini, F. Carnesecchi, C. Cicalò, L. Cifarelli, F. Coccetti, E. Coccia, A. Corvaglia, D. De Gruttola, S. De Pasquale, F. Fabbri, D. Falchieri, A. Flammini, L. Galante, M. Garbini, G. Gemme, I. Gnesi, E. Gramstad, S. Grazzi, E. S. Håland, D. Hatzifotiadou, P. La Rocca, Z. Liu, L. Lombardo, G. Mandaglio, A. Margotti, G. Maron, M. N. Mazziotta, S. Meneghini, S. A. Millerjord, A. Mulliri, R. Nania, F. Noferini, F. Nozzoli, F. Ould-Saada, F. Palmonari, M. Panareo, M. P. Panetta, R. Paoletti, M. Parvis, C. Pellegrino, L. Perasso, O. Pinazza, C. Pinto, S. Pisano, F. Riggi, G. Righini, C. Ripoli, M. Rizzi, G. Sartorelli, E. Scapparone, M. Schioppa, G. Scioli, A. Scribano, M. Selvi, G. Serri, S. Squarcia, M. Taiuti, G. Terreni, G. Torromeo, R. Travaglini, A. Trifirò, M. Trimarchi, C. Veri, C. Vistoli, L. Votano, M. C. S. Williams, A. Zichichi, and R. Zuyeuski

Subjects

Astrophysics, QB460-466, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

In the original version of this article, the names of four authors were missing in the author list: L. Perasso, O. Pinazza, C. Pinto and S. Pisano.

Published

2020

6. Beam test results of 25 and 35 $$\mu$$m thick FBK ultra-fast silicon detectors

Author

F. Carnesecchi, S. Strazzi, A. Alici, R. Arcidiacono, G. Borghi, M. Boscardin, N. Cartiglia, M. Centis Vignali, D. Cavazza, G. -F. Dalla Betta, S. Durando, M. Ferrero, F. Ficorella, O. Hammad Ali, M. Mandurrino, A. Margotti, L. Menzio, R. Nania, L. Pancheri, G. Paternoster, G. Scioli, F. Siviero, V. Sola, M. Tornago, and G. Vignola

Subjects

Fluid Flow and Transfer Processes, General Physics and Astronomy, Detectors and Experimental Techniques

Abstract

This paper presents the measurements on first very thin Ultra-Fast Silicon Detectors (UFSDs) produced by Fondazione Bruno Kessler; the data have been collected in a beam test setup at the CERN PS, using beam with a momentum of 12 GeV/c. UFSDs with a nominal thickness of 25 and 35 $$\mu$$ μ m and an area of 1 $$\times$$ × 1 $$\text {mm}^2$$ mm 2 have been considered, together with an additional HPK 50-$$\mu$$ μ m thick sensor, taken as reference. Their timing performances have been studied as a function of the applied voltage and gain. A time resolution of about 25 ps and of 22 ps at a voltage of 120 and 240 V has been obtained for the 25 and 35 $$\mu$$ μ m thick UFSDs, respectively.

Published

2023

7. Understanding the direct detection of charged particles with SiPMs

Author

F. Carnesecchi, G. Vignola, N. Agrawal, A. Alici, P. Antonioli, S. Arcelli, F. Bellini, D. Cavazza, L. Cifarelli, M. Colocci, S. Durando, F. Ercolessi, A. Ficorella, C. Fraticelli, M. Garbini, M. Giacalone, A. Gola, D. Hatzifotiadou, N. Jacazio, A. Margotti, G. Malfattore, R. Nania, F. Noferini, G. Paternoster, O. Pinazza, R. Preghenella, R. Rath, R. Ricci, L. Rignanese, N. Rubini, B. Sabiu, E. Scapparone, G. Scioli, S. Strazzi, S. Tripathy, and A. Zichichi

Subjects

Fluid Flow and Transfer Processes, High Energy Physics - Experiment (hep-ex), Physics - Instrumentation and Detectors, hep-ex, General Physics and Astronomy, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), Detectors and Experimental Techniques, physics.ins-det, Particle Physics - Experiment, High Energy Physics - Experiment

Abstract

In this paper, evidence that the increased response of SiPM sensors to the passage of charged particles is related mainly to Cherenkov light produced in the protection layer is reported. The response and timing properties of sensors with different protection layers have been studied. In this paper evidence that the increased response of SiPM sensors to the passage of charged particles is related mainly to Cherenkov light produced in the protection layer is reported. The response and timing properties of sensors with different protection layers have been studied.

Published

2022

8. SiPM-matrix readout of two-phase argon detectors using electroluminescence in the visible and near infrared range

Author

F. Pietropaolo, Min-Xin Guan, S. Rescia, Federica Villa, F. Coccetti, A. Sheshukov, D. A. Semenov, Alberto Masoni, C. Savarese, F. Ameli, S. Bussino, Jocelyn Monroe, Paola Sala, Lelio Luzzi, R. Tartaglia, B. Hosseini, Chung-Yao Yang, I. Kochanek, Andrea Messina, S. Davini, A. V. Derbin, Paul H. Humble, V. Strickland, A. Franceschi, A. L. Hallin, P. Skensved, O. Smirnov, A. De Falco, C. Ripoli, E. Paoloni, B. Lehnert, E. Segreto, Laura A. Pellegrini, André Rubbia, Manuel Colocci, Aldo Ghisi, Marzio Nessi, V. Cocco, R. Graciani Diaz, Pietro Antonioli, M. G. Boulay, L. La Delfa, P. Cavalcante, V. Barbaryan, A.E. Bondar, W. Bonivento, C. Cantini, M. Lai, J. Mason, G. Fiorillo, Sara Sulis, L. P. Rignanese, T. N. Thorpe, Mariano Cadoni, T. Pollmann, E. V. Unzhakov, Q. Liqiang, Giovanni Covone, S. De Cecco, E. Scapparone, Andrea Gabrieli, Marino Simeone, C. Dionisi, N. Rossi, R. Stainforth, Mauro Marinelli, C. Regenfus, Gillian Kopp, Mauro Mariani, I. N. Machulin, G. De Guido, M. Lissia, Federico Perotti, S. S. Poudel, A. B. McDonald, G. Dellacasa, Carlo Muscas, M. Fernandez Diaz, Darren Price, George E. Froudakis, A. Oleinik, N. Canci, H. O. Back, G. De Rosa, O. Gorchakov, R. B. Vogelaar, G. K. Giovanetti, Simonetta Palmas, Marco Pallavicini, A. D. Martinez Rojas, W. Mu, V. Oleynikov, Paolo Attilio Pegoraro, F. Di Eusanio, M. Grab, An. Ianni, Rudi Lussana, G. L. Usai, Luciano Pandola, M. D. Skorokhvatov, E. Borisova, Pascal Pralavorio, F. Pazzona, M. Gromov, A. Grobov, M. M. Wojcik, G. Dolganov, S. Manecki, A. K. Alton, E. Frolov, J. Wahl, Anselmo Margotti, Xiang Xiao, I. Nikulin, Aldo Romani, Annalisa Vacca, E. Conde Vilda, O. Dadoun, V. N. Muratova, S. Cebrián, B. Bottino, M. L. Gligan, R. Milincic, J. A. Wilson, G. Zuzel, Thomas Alexander, M. D'Incecco, L. Romero, S. Murphy, C. L. Kendziora, A. Devoto, L. Di Noto, E. V. Hungerford, A. Asunskis, S. Westerdale, P. Agnes, Yanchu Wang, E. Sandford, B. Schlitzer, Stefania Moioli, C. Giganti, M. Downing, R. Santorelli, Rosario Nania, Alberto Tosi, Mario Patricio Padilla Martínez, A.V. Shchagin, A. Buzulutskov, M. Caravati, F. Raffaelli, P. Giampa, Davide Portaluppi, Fabrice Hubaut, C. J. Jillings, K. Pelczar, Cristiano Galbiati, L. Pagani, J. A. Nowak, A. Sotnikov, Y. Suvorov, M. Da Rocha Rolo, A. Ilyasov, Eric W. Hoppe, S. Abdelhakim, M. K. Daniel, J. Rode, L. Mapelli, F. Retiere, Han Wang, M. Garbini, D. De Gruttola, M. Haranczyk, R. Kugathasan, R. Bunker, Raffaele Ardito, V. Bocci, G. Di Pietro, Z. Ye, N. Funicello, A. S. Kubankin, D. Franco, A. Pocar, N. Levashko, W. Cheng, A. Mandarano, A. Caminata, V. Pesudo, F. Gabriele, Francesca Dordei, Pierre-Andre Amaudruz, A. Vishneva, F. Cossio, G. Batignani, A. Steri, M. Orsini, D. Santone, M. Ave, P. Garcia Abia, B. Celano, T. Mroz, Stefano Cavuoti, Francesco Ragusa, R. K. Haaland, A. Gendotti, Mario Giorgi, Jay W. Grate, Marcelo Braga Bueno Guerra, M. La Commara, A. M. Szelc, D. Gascon Fora, A. Castellani, S. Chashin, G. U. Lodi, Silvia Arcelli, E. Pantic, A. Tonazzo, Marco Sant, R. J. Wheadon, Maria Giuseppina Bisogni, M. Rescigno, Anton Empl, D. Cavazza, A. Navrer Agasson, R. Cereseto, M. Razeti, R. Ajaj, Nicomede Pelliccia, Xiujiang Li, S. Wu, M. Guerzoni, S. J. M. Peeters, Pasquale Arpaia, V. Nosov, J. Anstey, Craig E. Aalseth, Andrey Sokolov, Paolo Musico, Matteo Morrocchi, M. Cariello, E. Sanchez Garcia, T. Viant, A. Candela, M. Kuss, K. Kondo, S. Siddhanta, F. Edalatfar, G. Korga, M. Tuveri, A. A. Machado, C. Ghiano, B. R. Hackett, Gilda Scioli, I. J. Arnquist, C. Pellegrino, Giuseppe Longo, A. L. Renshaw, Valerio Ippolito, A. Moggi, F. Carnesecchi, L. Consiglio, Angelo Rivetti, S. Viel, Pierfranco Demontis, Andrea Alici, B. Harrop, O. Samoylov, P. Di Stefano, G. Bonfini, Piero Salatino, Richard M. Williams, G. Sobrero, M. Cadeddu, K. J. Keeter, Marco Grassi, A. Barrado Olmedo, E. Picciau, Ivone F. M. Albuquerque, S. Sanfilippo, Fausto Ortica, J. M. Cela Ruiz, C. Cicalò, T. Napolitano, P. N. Singh, Paolo Castello, S. Stracka, K. Fomenko, M. Zuffa, D. M. Asner, M. Lebois, B. Radics, L. Cifarelli, S. De Pasquale, Allen Seifert, Marisa Gulino, D. Marras, R. A. Giampaolo, J. Maricic, Michele Mascia, M. De Deo, M. Arba, S. Horikawa, I. D'Antone, S. M. Mari, A. S. Chepurnov, C. Filip, Mauro Citterio, Denis Korablev, E. Vázquez-Jáuregui, T. Miletic, Paolo Crivelli, J. Walding, G. Testera, Giuseppe Baldovino Suffritti, Centre de Physique des Particules de Marseille (CPPM), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), AstroParticule et Cosmologie (APC (UMR_7164)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), Institut Fédératif de Recherche en Sciences et Ingénierie de la Santé (IFRESIS-ENSMSE), École des Mines de Saint-Étienne (Mines Saint-Étienne MSE), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT)-IFR143, Aalseth, C. E., Abdelhakim, S., Agnes, P., Ajaj, R., Albuquerque, I. F. M., Alexander, T., Alici, A., Alton, A. K., Amaudruz, P., Ameli, F., Anstey, J., Antonioli, P., Arba, M., Arcelli, S., Ardito, R., Arnquist, I. J., Arpaia, P., Asner, D. M., Asunskis, A., Ave, M., Back, H. O., Barbaryan, V., Barrado Olmedo, A., Batignani, G., Bisogni, M. G., Bocci, V., Bondar, A., Bonfini, G., Bonivento, W., Borisova, E., Bottino, B., Boulay, M. G., Bunker, R., Bussino, S., Buzulutskov, A., Cadeddu, M., Cadoni, M., Caminata, A., Canci, N., Candela, A., Cantini, C., Caravati, M., Cariello, M., Carnesecchi, F., Castellani, A., Castello, P., Cavalcante, P., Cavazza, D., Cavuoti, S., Cebrian, S., Cela Ruiz, J. M., Celano, B., Cereseto, R., Chashin, S., Cheng, W., Chepurnov, A., Cicalò, C., Cifarelli, L., Citterio, M., Coccetti, F., Cocco, V., Colocci, M., Conde Vilda, E., Consiglio, L., Cossio, F., Covone, G., Crivelli, P., D’Antone, I., D’Incecco, M., Da Rocha Rolo, M. D., Dadoun, O., Daniel, M., Davini, S., De Cecco, S., De Deo, M., De Falco, A., De Gruttola, D., De Guido, G., De Rosa, G., Dellacasa, G., Demontis, P., De Pasquale, S., Derbin, A. V., Devoto, A., Eusanio, F. Di, Di Noto, L., Di Pietro, G., Di Stefano, P., Dionisi, C., Dolganov, G., Dordei, F., Downing, M., Edalatfar, F., Empl, A., Fernandez Diaz, M., Filip, C., Fiorillo, G., Fomenko, K., Franceschi, A., Franco, D., Frolov, E., Froudakis, G. E., Funicello, N., Gabriele, F., Gabrieli, A., Galbiati, C., Garbini, M., Garcia Abia, P., Gascón Fora, D., Gendotti, A., Ghiano, C., Ghisi, A., Giampa, P., Giampaolo, R. A., Giganti, C., Giorgi, M. A., Giovanetti, G. K., Gligan, M. L., Gorchakov, O., Grab, M., Graciani Diaz, R., Grassi, M., Grate, J. W., Grobov, A., Gromov, M., Guan, M., Guerra, M. B. B., Guerzoni, M., Gulino, M., Haaland, R. K., Hackett, B. R., Hallin, A., Haranczyk, M., Harrop, B., Hoppe, E. W., Horikawa, S., Hosseini, B., Hubaut, F., Humble, P., Hungerford, E. V., Ianni, An., Ilyasov, A., Ippolito, V., Jillings, C., Keeter, K., Kendziora, C. L., Kochanek, I., Kondo, K., Kopp, G., Korablev, D., Korga, G., Kubankin, A., Kugathasan, R., Kuss, M., La Commara, M., La Delfa, L., Lai, M., Lebois, M., Lehnert, B., Levashko, N., Li, X., Liqiang, Q., Lissia, M., Lodi, G. U., Longo, G., Lussana, R., Luzzi, L., Machado, A. A., Machulin, I. N., Mandarano, A., Manecki, S., Mapelli, L., Margotti, A., Mari, S. M., Mariani, M., Maricic, J., Marinelli, M., Marras, D., Martínez, M., Martinez Rojas, A. D., Mascia, M., Mason, J., Masoni, A., Mcdonald, A. B., Messina, A., Miletic, T., Milincic, R., Moggi, A., Moioli, S., Monroe, J., Morrocchi, M., Mroz, T., Mu, W., Muratova, V. N., Murphy, S., Muscas, C., Musico, P., Nania, R., Napolitano, T., Navrer Agasson, A., Nessi, M., Nikulin, I., Nosov, V., Nowak, J. A., Oleinik, A., Oleynikov, V., Orsini, M., Ortica, F., Pagani, L., Pallavicini, M., Palmas, S., Pandola, L., Pantic, E., Paoloni, E., Pazzona, F., Peeters, S., Pegoraro, P. A., Pelczar, K., Pellegrini, L. A., Pellegrino, C., Pelliccia, N., Perotti, F., Pesudo, V., Picciau, E., Pietropaolo, F., Pocar, A., Pollmann, T. R., Portaluppi, D., Poudel, S. S., Pralavorio, P., Price, D., Radics, B., Raffaelli, F., Ragusa, F., Razeti, M., Regenfus, C., Renshaw, A. L., Rescia, S., Rescigno, M., Retiere, F., Rignanese, L. P., Ripoli, C., Rivetti, A., Rode, J., Romani, A., Romero, L., Rossi, N., Rubbia, A., Sala, P., Salatino, P., Samoylov, O., Sánchez García, E., Sandford, E., Sanfilippo, S., Sant, M., Santone, D., Santorelli, R., Savarese, C., Scapparone, E., Schlitzer, B., Scioli, G., Segreto, E., Seifert, A., Semenov, D. A., Shchagin, A., Sheshukov, A., Siddhanta, S., Simeone, M., Singh, P. N., Skensved, P., Skorokhvatov, M. D., Smirnov, O., Sobrero, G., Sokolov, A., Sotnikov, A., Stainforth, R., Steri, A., Stracka, S., Strickland, V., Suffritti, G. B., Sulis, S., Suvorov, Y., Szelc, A. M., Tartaglia, R., Testera, G., Thorpe, T., Tonazzo, A., Tosi, A., Tuveri, M., Unzhakov, E. V., Usai, G., Vacca, A., Vázquez-Jáuregui, E., Viant, T., Viel, S., Villa, F., Vishneva, A., Vogelaar, R. B., Wahl, J., Walding, J. J., Wang, H., Wang, Y., Westerdale, S., Wheadon, R. J., Williams, R., Wilson, J., Wojcik, Ma. M., Wojcik, Ma., Wu, S., Xiao, X., Yang, C., Ye, Z., Zuffa, M., Zuzel, G., Institut de Physique Nucléaire d'Orsay (IPNO), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Nucléaire et de Hautes Énergies (LPNHE (UMR_7585)), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Aalseth C.E., Abdelhakim S., Agnes P., Ajaj R., Albuquerque I.F.M., Alexander T., Alici A., Alton A.K., Amaudruz P., Ameli F., Anstey J., Antonioli P., Arba M., Arcelli S., Ardito R., Arnquist I.J., Arpaia P., Asner D.M., Asunskis A., Ave M., Back H.O., Barbaryan V., Barrado Olmedo A., Batignani G., Bisogni M.G., Bocci V., Bondar A., Bonfini G., Bonivento W., Borisova E., Bottino B., Boulay M.G., Bunker R., Bussino S., Buzulutskov A., Cadeddu M., Cadoni M., Caminata A., Canci N., Candela A., Cantini C., Caravati M., Cariello M., Carnesecchi F., Castellani A., Castello P., Cavalcante P., Cavazza D., Cavuoti S., Cebrian S., Cela Ruiz J.M., Celano B., Cereseto R., Chashin S., Cheng W., Chepurnov A., Cicalo C., Cifarelli L., Citterio M., Coccetti F., Cocco V., Colocci M., Conde Vilda E., Consiglio L., Cossio F., Covone G., Crivelli P., D'Antone I., D'Incecco M., Da Rocha Rolo M.D., Dadoun O., Daniel M., Davini S., De Cecco S., De Deo M., De Falco A., De Gruttola D., De Guido G., De Rosa G., Dellacasa G., Demontis P., De Pasquale S., Derbin A.V., Devoto A., Eusanio F.D., Di Noto L., Di Pietro G., Di Stefano P., Dionisi C., Dolganov G., Dordei F., Downing M., Edalatfar F., Empl A., Fernandez Diaz M., Filip C., Fiorillo G., Fomenko K., Franceschi A., Franco D., Frolov E., Froudakis G.E., Funicello N., Gabriele F., Gabrieli A., Galbiati C., Garbini M., Garcia Abia P., Gascon Fora D., Gendotti A., Ghiano C., Ghisi A., Giampa P., Giampaolo R.A., Giganti C., Giorgi M.A., Giovanetti G.K., Gligan M.L., Gorchakov O., Grab M., Graciani Diaz R., Grassi M., Grate J.W., Grobov A., Gromov M., Guan M., Guerra M.B.B., Guerzoni M., Gulino M., Haaland R.K., Hackett B.R., Hallin A., Haranczyk M., Harrop B., Hoppe E.W., Horikawa S., Hosseini B., Hubaut F., Humble P., Hungerford E.V., Ianni A., Ilyasov A., Ippolito V., Jillings C., Keeter K., Kendziora C.L., Kochanek I., Kondo K., Kopp G., Korablev D., Korga G., Kubankin A., Kugathasan R., Kuss M., La Commara M., La Delfa L., Lai M., Lebois M., Lehnert B., Levashko N., Li X., Liqiang Q., Lissia M., Lodi G.U., Longo G., Lussana R., Luzzi L., Machado A.A., Machulin I.N., Mandarano A., Manecki S., Mapelli L., Margotti A., Mari S.M., Mariani M., Maricic J., Marinelli M., Marras D., Martinez M., Martinez Rojas A.D., Mascia M., Mason J., Masoni A., McDonald A.B., Messina A., Miletic T., Milincic R., Moggi A., Moioli S., Monroe J., Morrocchi M., Mroz T., Mu W., Muratova V.N., Murphy S., Muscas C., Musico P., Nania R., Napolitano T., Navrer Agasson A., Nessi M., Nikulin I., Nosov V., Nowak J.A., Oleinik A., Oleynikov V., Orsini M., Ortica F., Pagani L., Pallavicini M., Palmas S., Pandola L., Pantic E., Paoloni E., Pazzona F., Peeters S., Pegoraro P.A., Pelczar K., Pellegrini L.A., Pellegrino C., Pelliccia N., Perotti F., Pesudo V., Picciau E., Pietropaolo F., Pocar A., Pollmann T.R., Portaluppi D., Poudel S.S., Pralavorio P., Price D., Radics B., Raffaelli F., Ragusa F., Razeti M., Regenfus C., Renshaw A.L., Rescia S., Rescigno M., Retiere F., Rignanese L.P., Ripoli C., Rivetti A., Rode J., Romani A., Romero L., Rossi N., Rubbia A., Sala P., Salatino P., Samoylov O., Sanchez Garcia E., Sandford E., Sanfilippo S., Sant M., Santone D., Santorelli R., Savarese C., Scapparone E., Schlitzer B., Scioli G., Segreto E., Seifert A., Semenov D.A., Shchagin A., Sheshukov A., Siddhanta S., Simeone M., Singh P.N., Skensved P., Skorokhvatov M.D., Smirnov O., Sobrero G., Sokolov A., Sotnikov A., Stainforth R., Steri A., Stracka S., Strickland V., Suffritti G.B., Sulis S., Suvorov Y., Szelc A.M., Tartaglia R., Testera G., Thorpe T., Tonazzo A., Tosi A., Tuveri M., Unzhakov E.V., Usai G., Vacca A., Vazquez-Jauregui E., Viant T., Viel S., Villa F., Vishneva A., Vogelaar R.B., Wahl J., Walding J.J., Wang H., Wang Y., Westerdale S., Wheadon R.J., Williams R., Wilson J., Wojcik M.M., Wojcik M., Wu S., Xiao X., Yang C., Ye Z., Zuffa M., and Zuzel G.

Subjects

Physics - Instrumentation and Detectors, Physics and Astronomy (miscellaneous), Physics::Instrumentation and Detectors, 01 natural sciences, 7. Clean energy, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), darkside, cmos, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Detectors and Experimental Techniques, sipm, physics.ins-det, Physics, ESPALHAMENTO, Bremsstrahlung, neutrinos, Noble gas, Instrumentation and Detectors (physics.ins-det), argon, photoluminescence, Astrophysics - Instrumentation and Methods for Astrophysics, physics, Particle Physics - Experiment, Astrophysics and Astronomy, Photomultiplier, SiPM readout two-phase argon detectors electroluminescence visible near infrared, FOS: Physical sciences, chemistry.chemical_element, lcsh:Astrophysics, physics, detector, cmos, dark matter, darkside, photoluminescence, sipm, radiation, neutrinos, argon, Electroluminescence, dark matter, Electron avalanche, Optics, Silicon photomultiplier, lcsh:QB460-466, 0103 physical sciences, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, 010306 general physics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Engineering (miscellaneous), Scintillation, Argon, detector, hep-ex, 010308 nuclear & particles physics, business.industry, radiation, chemistry, lcsh:QC770-798, SiPM, dual-phase TPC, Darkside-20k, business, astro-ph.IM

Abstract

Proportional electroluminescence (EL) in noble gases is used in two-phase detectors for dark matter searches to record (in the gas phase) the ionization signal induced by particle scattering in the liquid phase. The "standard" EL mechanism is considered to be due to noble gas excimer emission in the vacuum ultraviolet (VUV). In addition, there are two alternative mechanisms, producing light in the visible and near infrared (NIR) ranges. The first is due to bremsstrahlung of electrons scattered on neutral atoms ("neutral bremsstrahlung", NBrS). The second, responsible for electron avalanche scintillation in the NIR at higher electric fields, is due to transitions between excited atomic states. In this work, we have for the first time demonstrated two alternative techniques of the optical readout of two-phase argon detectors, in the visible and NIR range, using a silicon photomultiplier matrix and electroluminescence due to either neutral bremsstrahlung or avalanche scintillation. The amplitude yield and position resolution were measured for these readout techniques, which allowed to assess the detection threshold for electron and nuclear recoils in two-phase argon detectors for dark matter searches. To the best of our knowledge, this is the first practical application of the NBrS effect in detection science., Comment: 26 pages, 22 figures, 3 tables

Published

2021

9. Erratum to: New high precision measurements of the cosmic charged particle rate beyond the Arctic Circle with the PolarquEEEst experiment

Author

F. L. Fabbri, Gilda Scioli, Eirik Gramstad, Francesco Riggi, Rosario Nania, C. Avanzini, M. Selvi, A. Mulliri, L. Galante, M. Taiuti, G. Batignani, Francesco Noferini, Giancarlo C. Righini, M. Parvis, G. Gemme, Marco Schioppa, Davide Falchieri, M. P. Panetta, Luca Baldini, M. Trimarchi, Marcello Abbrescia, C. Pinto, Mn Mazziotta, R. Zuyeuski, M. Rizzi, C. Vistoli, C. Ripoli, S. Boi, Rinaldo Baldini Ferroli, S. Squarcia, Farid Ould-Saada, Giuseppe Mandaglio, A. Scribano, I. Gnesi, F. Carnesecchi, S. Grazzi, S. A. Millerjord, E. Coccia, F. Nozzoli, C. Veri, D. Hatzifotiadou, C. Cicalo, G. Terreni, D. Cavazza, O. Pinazza, S. Pisano, Eugenio Scapparone, Riccardo Travaglini, M. Panareo, E. S. Haland, L. Perasso, Luca Lombardo, F. Coccetti, M. C. S. Williams, L. Votano, Antonio Trifiro, G. Maron, Anselmo Margotti, G. Sartorelli, M. Arlandoo, F. Palmonari, G. Torromeo, G. Serri, Luisa Cifarelli, A. Flammini, M. Garbini, M. Battaglieri, S. Meneghini, R. Paoletti, E. Bossini, Z. Liu, S. De Pasquale, G. Balbi, A. Corvaglia, C. Pellegrino, P. La Rocca, D. De Gruttola, Antonino Zichichi, Abbrescia, M., Avanzini, C., Arlandoo, M., Balbi, G., Baldini, L., Ferroli, R. B., Batignani, G., Battaglieri, M., Boi, S., Cavazza, D., Bossini, E., Carnesecchi, F., Cicalo, C., Cifarelli, L., Coccetti, F., Coccia, E., Corvaglia, A., De Gruttola, D., De Pasquale, S., Fabbri, F., Falchieri, D., Flammini, A., Galante, L., Garbini, M., Gemme, G., Gnesi, I., Gramstad, E., Grazzi, S., Haland, E. S., Hatzifotiadou, D., La Rocca, P., Liu, Z., Lombardo, L., Mandaglio, G., Margotti, A., Maron, G., Mazziotta, M. N., Meneghini, S., Millerjord, S. A., Mulliri, A., Nania, R., Noferini, F., Nozzoli, F., Ould-Saada, F., Palmonari, F., Panareo, M., Panetta, M. P., Paoletti, R., Parvis, M., Pellegrino, C., Perasso, L., Pinazza, O., Pinto, C., Pisano, S., Riggi, F., Righini, G., Ripoli, C., Rizzi, M., Sartorelli, G., Scapparone, E., Schioppa, M., Scioli, G., Scribano, A., Selvi, M., Serri, G., Squarcia, S., Taiuti, M., Terreni, G., Torromeo, G., Travaglini, R., Trifiro, A., Trimarchi, M., Veri, C., Vistoli, C., Votano, L., Williams, M. C. S., Zichichi, A., and Zuyeuski, R.

Subjects

Physics, COSMIC cancer database, Physics and Astronomy (miscellaneous), lcsh:QB460-466, Astronomy, lcsh:QC770-798, lcsh:Astrophysics, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, Engineering (miscellaneous), Charged particle, The arctic

Abstract

In the original version of this article (Eur. Phys. J. C (2020) 80:665, https://doi.org/10.1140/epjc/s10052-020-8213-2) the names of four authors were missing in the author list: L. Perasso, O. Pinazza, C. Pinto and S. Pisano.

Published

2020

10. Design and construction of a new detector to measure ultra-low radioactive-isotope contamination of argon

Author

C.E. Aalseth, S. Abdelhakim, F. Acerbi, P. Agnes, R. Ajaj, I.F.M. Albuquerque, T. Alexander, A. Alici, A.K. Alton, P. Amaudruz, F. Ameli, J. Anstey, P. Antonioli, M. Arba, S. Arcelli, R. Ardito, I.J. Arnquist, P. Arpaia, D.M. Asner, A. Asunskis, M. Ave, H.O. Back, V. Barbaryan, A. Barrado Olmedo, G. Batignani, M.G. Bisogni, V. Bocci, A. Bondar, G. Bonfini, W. Bonivento, E. Borisova, B. Bottino, M.G. Boulay, R. Bunker, S. Bussino, A. Buzulutskov, M. Cadeddu, M. Cadoni, A. Caminata, N. Canci, A. Candela, C. Cantini, M. Caravati, M. Cariello, F. Carnesecchi, M. Carpinelli, A. Castellani, P. Castello, S. Catalanotti, V. Cataudella, P. Cavalcante, D. Cavazza, S. Cavuoti, S. Cebrian, J.M. Cela Ruiz, B. Celano, R. Cereseto, W. Cheng, A. Chepurnov, C. Cicalò, L. Cifarelli, M. Citterio, F. Coccetti, A.G. Cocco, V. Cocco, M. Colocci, L. Consiglio, F. Cossio, G. Covone, P. Crivelli, I. D'Antone, M. D'Incecco, D. D'Urso, M.D. Da Rocha Rolo, O. Dadoun, M. Daniel, S. Davini, A. De Candia, S. De Cecco, M. De Deo, A. De Falco, G. De Filippis, D. De Gruttola, G. De Guido, G. De Rosa, G. Dellacasa, P. Demontis, S. DePaquale, A.V. Derbin, A. Devoto, F. Di Eusanio, L. Di Noto, G. Di Pietro, P. Di Stefano, C. Dionisi, G. Dolganov, F. Dordei, M. Downing, F. Edalatfar, A. Empl, M. Fernandez Diaz, A. Ferri, C. Filip, G. Fiorillo, K. Fomenko, A. Franceschi, D. Franco, G.E. Froudakis, F. Gabriele, A. Gabrieli, C. Galbiati, M. Garbini, P. Garcia Abia, D. Gascón Fora, A. Gendotti, C. Ghiano, A. Ghisi, S. Giagu, P. Giampa, R.A. Giampaolo, C. Giganti, M.A. Giorgi, G.K. Giovanetti, M.L. Gligan, A. Gola, O. Gorchakov, M. Grab, R. Graciani Diaz, F. Granato, M. Grassi, J.W. Grate, G.Y. Grigoriev, A. Grobov, M. Gromov, M. Guan, M.B.B. Guerra, M. Guerzoni, M. Gulino, R.K. Haaland, B.R. Hackett, A. Hallin, B. Harrop, E.W. Hoppe, S. Horikawa, B. Hosseini, F. Hubaut, P. Humble, E.V. Hungerford, An. Ianni, A. Ilyasov, V. Ippolito, C. Jillings, K. Keeter, C.L. Kendziora, S. Kim, I. Kochanek, K. Kondo, G. Kopp, D. Korablev, G. Korga, A. Kubankin, R. Kugathasan, M. Kuss, M. Kuźniak, M. La Commara, L. La Delfa, M. Lai, S. Langrock, M. Lebois, B. Lehnert, N. Levashko, X. Li, Q. Liqiang, M. Lissia, G.U. Lodi, G. Longo, R. López Manzano, R. Lussana, L. Luzzi, A.A. Machado, I.N. Machulin, A. Mandarano, L. Mapelli, M. Marcante, A. Margotti, S.M. Mari, M. Mariani, J. Maricic, M. Marinelli, D. Marras, M. Martínez, J.J. Martínez Morales, A.D. Martinez Rojas, C.J. Martoff, M. Mascia, J. Mason, A. Masoni, A. Mazzi, A.B. McDonald, A. Messina, P.D. Meyers, T. Miletic, R. Milincic, A. Moggi, S. Moioli, J. Monroe, M. Morrocchi, T. Mroz, W. Mu, V.N. Muratova, S. Murphy, C. Muscas, P. Musico, R. Nania, T. Napolitano, A. Navrer Agasson, M. Nessi, I. Nikulin, A. Oleinik, V. Oleynikov, M. Orsini, F. Ortica, L. Pagani, M. Pallavicini, S. Palmas, L. Pandola, E. Pantic, E. Paoloni, G. Paternoster, F. Pazzona, S. Peeters, P.A. Pegoraro, K. Pelczar, L.A. Pellegrini, C. Pellegrino, N. Pelliccia, F. Perotti, V. Pesudo, E. Picciau, C. Piemonte, F. Pietropaolo, A. Pocar, T.R. Pollmann, D. Portaluppi, S.S. Poudel, P. Pralavorio, D. Price, B. Radics, F. Raffaelli, F. Ragusa, M. Razeti, A. Razeto, V. Regazzoni, C. Regenfus, A.L. Renshaw, S. Rescia, M. Rescigno, F. Retiere, L.P. Rignanese, A. Rivetti, A. Romani, L. Romero, N. Rossi, A. Rubbia, D. Sablone, P. Sala, P. Salatino, O. Samoylov, E. Sánchez García, S. Sanfilippo, M. Sant, D. Santone, R. Santorelli, C. Savarese, E. Scapparone, B. Schlitzer, G. Scioli, E. Segreto, A. Seifert, D.A. Semenov, A. Shchagin, A. Sheshukov, S. Siddhanta, M. Simeone, P.N. Singh, P. Skensved, M.D. Skorokhvatov, O. Smirnov, G. Sobrero, A. Sokolov, A. Sotnikov, R. Stainforth, A. Steri, S. Stracka, V. Strickland, G.B. Suffritti, S. Sulis, Y. Suvorov, A.M. Szelc, R. Tartaglia, G. Testera, T. Thorpe, A. Tonazzo, A. Tosi, M. Tuveri, E.V. Unzhakov, G. Usai, A. Vacca, E. Vázquez-Jáuregui, M. Verducci, T. Viant, S. Viel, F. Villa, A. Vishneva, R.B. Vogelaar, M. Wada, J. Wahl, J.J. Walding, H. Wang, Y. Wang, S. Westerdale, R.J. Wheadon, R. Williams, J. Wilson, Marcin Wojcik, Mariusz Wojcik, S. Wu, X. Xiao, C. Yang, Z. Ye, M. Zuffa, G. Zuzel, Centre de Physique des Particules de Marseille (CPPM), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Fondazione Bruno Kessler [Trento, Italy] (FBK), Trento Institute for Fundamental Physics and Applications, Italy, AstroParticule et Cosmologie (APC (UMR_7164)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), Institut Fédératif de Recherche en Sciences et Ingénierie de la Santé (IFRESIS-ENSMSE), École des Mines de Saint-Étienne (Mines Saint-Étienne MSE), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT)-IFR143, University of Surrey (UNIS), Aalseth, C, Abdelhakim, S, Acerbi, F, Agnes, P, Ajaj, R, Albuquerque, I, Alexander, T, Alici, A, Alton, A, Amaudruz, P, Ameli, F, Anstey, J, Antonioli, P, Arba, M, Arcelli, S, Ardito, R, Arnquist, I, Arpaia, P, Asner, D, Asunskis, A, Ave, M, Back, H, Barbaryan, V, Barrado Olmedo, A, Batignani, G, Bisogni, M, Bocci, V, Bondar, A, Bonfini, G, Bonivento, W, Borisova, E, Bottino, B, Boulay, M, Bunker, R, Bussino, S, Buzulutskov, A, Cadeddu, M, Cadoni, M, Caminata, A, Canci, N, Candela, A, Cantini, C, Caravati, M, Cariello, M, Carnesecchi, F, Carpinelli, M, Castellani, A, Castello, P, Catalanotti, S, Cataudella, V, Cavalcante, P, Cavazza, D, Cavuoti, S, Cebrian, S, Cela Ruiz, J, Celano, B, Cereseto, R, Cheng, W, Chepurnov, A, Cicalo, C, Cifarelli, L, Citterio, M, Coccetti, F, Cocco, A, Cocco, V, Colocci, M, Consiglio, L, Cossio, F, Covone, G, Crivelli, P, D'Antone, I, D'Incecco, M, D'Urso, D, da Rocha Rolo, M, Dadoun, O, Daniel, M, Davini, S, de Candia, A, de Cecco, S, de Deo, M, de Falco, A, de Filippis, G, de Gruttola, D, de Guido, G, de Rosa, G, Dellacasa, G, Demontis, P, Depaquale, S, Derbin, A, Devoto, A, Di Eusanio, F, Di Noto, L, Di Pietro, G, Di Stefano, P, Dionisi, C, Dolganov, G, Dordei, F, Downing, M, Edalatfar, F, Empl, A, Fernandez Diaz, M, Ferri, A, Filip, C, Fiorillo, G, Fomenko, K, Franceschi, A, Franco, D, Froudakis, G, Gabriele, F, Gabrieli, A, Galbiati, C, Garbini, M, Garcia Abia, P, Gascon Fora, D, Gendotti, A, Ghiano, C, Ghisi, A, Giagu, S, Giampa, P, Giampaolo, R, Giganti, C, Giorgi, M, Giovanetti, G, Gligan, M, Gola, A, Gorchakov, O, Grab, M, Graciani Diaz, R, Granato, F, Grassi, M, Grate, J, Grigoriev, G, Grobov, A, Gromov, M, Guan, M, Guerra, M, Guerzoni, M, Gulino, M, Haaland, R, Hackett, B, Hallin, A, Harrop, B, Hoppe, E, Horikawa, S, Hosseini, B, Hubaut, F, Humble, P, Hungerford, E, Ianni, A, Ilyasov, A, Ippolito, V, Jillings, C, Keeter, K, Kendziora, C, Kim, S, Kochanek, I, Kondo, K, Kopp, G, Korablev, D, Korga, G, Kubankin, A, Kugathasan, R, Kuss, M, Kuzniak, M, la Commara, M, la Delfa, L, Lai, M, Langrock, S, Lebois, M, Lehnert, B, Levashko, N, Li, X, Liqiang, Q, Lissia, M, Lodi, G, Longo, G, Lopez Manzano, R, Lussana, R, Luzzi, L, Machado, A, Machulin, I, Mandarano, A, Mapelli, L, Marcante, M, Margotti, A, Mari, S, Mariani, M, Maricic, J, Marinelli, M, Marras, D, Martinez, M, Martinez Morales, J, Martinez Rojas, A, Martoff, C, Mascia, M, Mason, J, Masoni, A, Mazzi, A, Mcdonald, A, Messina, A, Meyers, P, Miletic, T, Milincic, R, Moggi, A, Moioli, S, Monroe, J, Morrocchi, M, Mroz, T, Mu, W, Muratova, V, Murphy, S, Muscas, C, Musico, P, Nania, R, Napolitano, T, Navrer Agasson, A, Nessi, M, Nikulin, I, Oleinik, A, Oleynikov, V, Orsini, M, Ortica, F, Pagani, L, Pallavicini, M, Palmas, S, Pandola, L, Pantic, E, Paoloni, E, Paternoster, G, Pazzona, F, Peeters, S, Pegoraro, P, Pelczar, K, Pellegrini, L, Pellegrino, C, Pelliccia, N, Perotti, F, Pesudo, V, Picciau, E, Piemonte, C, Pietropaolo, F, Pocar, A, Pollmann, T, Portaluppi, D, Poudel, S, Pralavorio, P, Price, D, Radics, B, Raffaelli, F, Ragusa, F, Razeti, M, Razeto, A, Regazzoni, V, Regenfus, C, Renshaw, A, Rescia, S, Rescigno, M, Retiere, F, Rignanese, L, Rivetti, A, Romani, A, Romero, L, Rossi, N, Rubbia, A, Sablone, D, Sala, P, Salatino, P, Samoylov, O, Sanchez Garcia, E, Sanfilippo, S, Sant, M, Santone, D, Santorelli, R, Savarese, C, Scapparone, E, Schlitzer, B, Scioli, G, Segreto, E, Seifert, A, Semenov, D, Shchagin, A, Sheshukov, A, Siddhanta, S, Simeone, M, Singh, P, Skensved, P, Skorokhvatov, M, Smirnov, O, Sobrero, G, Sokolov, A, Sotnikov, A, Stainforth, R, Steri, A, Stracka, S, Strickland, V, Suffritti, G, Sulis, S, Suvorov, Y, Szelc, A, Tartaglia, R, Testera, G, Thorpe, T, Tonazzo, A, Tosi, A, Tuveri, M, Unzhakov, E, Usai, G, Vacca, A, Vazquez-Jauregui, E, Verducci, M, Viant, T, Viel, S, Villa, F, Vishneva, A, Vogelaar, R, Wada, M, Wahl, J, Walding, J, Wang, H, Wang, Y, Westerdale, S, Wheadon, R, Williams, R, Wilson, J, Wojcik, M, Wu, S, Xiao, X, Yang, C, Ye, Z, Zuffa, M, Zuzel, G, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), Institut Fédératif de Recherche en Sciences et Ingénierie de la Santé (IFRESIS), Université Jean Monnet - Saint-Étienne (UJM)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Ecole Nationale Supérieure des Mines de St Etienne (ENSM ST-ETIENNE)-Centre National de la Recherche Scientifique (CNRS), Aalseth, C. E., Abdelhakim, S., Acerbi, F., Agnes, P., Ajaj, R., Albuquerque, I. F. M., Alexander, T., Alici, A., Alton, A. K., Amaudruz, P., Ameli, F., Anstey, J., Antonioli, P., Arba, M., Arcelli, S., Ardito, R., Arnquist, I. J., Arpaia, P., Asner, D. M., Asunskis, A., Ave, M., Back, H. O., Barbaryan, V., Olmedo, A. Barrado, Batignani, G., Bisogni, M. G., Bocci, V., Bondar, A., Bonfini, G., Bonivento, W., Borisova, E., Bottino, B., Boulay, M. G., Bunker, R., Bussino, S., Buzulutskov, A., Cadeddu, M., Cadoni, M., Caminata, A., Canci, N., Candela, A., Cantini, C., Caravati, M., Cariello, M., Carnesecchi, F., Carpinelli, M., Castellani, A., Castello, P., Catalanotti, S., Cataudella, V., Cavalcante, P., Cavazza, D., Cavuoti, S., Cebrian, S., Ruiz, J. M. Cela, Celano, B., Cereseto, R., Cheng, W., Chepurnov, A., Cicalò, C., Cifarelli, L., Citterio, M., Coccetti, F., Cocco, A. G., Cocco, V., Colocci, M., Consiglio, L., Cossio, F., Covone, G., Crivelli, P., D'Antone, I., D'Incecco, M., D'Urso, D., Rolo, M. D. Da Rocha, Dadoun, O., Daniel, M., Davini, S., Candia, A. De, Cecco, S. De, Deo, M. De, Falco, A. De, Filippis, G. De, Gruttola, D. De, Guido, G. De, Rosa, G. De, Dellacasa, G., Demontis, P., Depaquale, S., Derbin, A. V., Devoto, A., Eusanio, F. Di, Noto, L. Di, Pietro, G. Di, Stefano, P. Di, Dionisi, C., Dolganov, G., Dordei, F., Downing, M., Edalatfar, F., Empl, A., Diaz, M. Fernandez, Ferri, A., Filip, C., Fiorillo, G., Fomenko, K., Franceschi, A., Franco, D., Froudakis, G. E., Gabriele, F., Gabrieli, A., Galbiati, C., Garbini, M., Abia, P. Garcia, Fora, D. Gascón, Gendotti, A., Ghiano, C., Ghisi, A., Giagu, S., Giampa, P., Giampaolo, R. A., Giganti, C., Giorgi, M. A., Giovanetti, G. K., Gligan, M. L., Gola, A., Gorchakov, O., Grab, M., Diaz, R. Graciani, Granato, F., Grassi, M., Grate, J. W., Grigoriev, G. Y., Grobov, A., Gromov, M., Guan, M., Guerra, M. B. B., Guerzoni, M., Gulino, M., Haaland, R. K., Hackett, B. R., Hallin, A., Harrop, B., Hoppe, E. W., Horikawa, S., Hosseini, B., Hubaut, F., Humble, P., Hungerford, E. V., Ianni, An., Ilyasov, A., Ippolito, V., Jillings, C., Keeter, K., Kendziora, C. L., Kim, S., Kochanek, I., Kondo, K., Kopp, G., Korablev, D., Korga, G., Kubankin, A., Kugathasan, R., Kuss, M., Kuźniak, M., Commara, M. La, Delfa, L. La, Lai, M., Langrock, S., Lebois, M., Lehnert, B., Levashko, N., Li, X., Liqiang, Q., Lissia, M., Lodi, G. U., Longo, G., Manzano, R. López, Lussana, R., Luzzi, L., Machado, A. A., Machulin, I. N., Mandarano, A., Mapelli, L., Marcante, M., Margotti, A., Mari, S. M., Mariani, M., Maricic, J., Marinelli, M., Marras, D., Martínez, M., Morales, J. J. Martínez, Rojas, A. D. Martinez, Martoff, C. J., Mascia, M., Mason, J., Masoni, A., Mazzi, A., Mcdonald, A. B., Messina, A., Meyers, P. D., Miletic, T., Milincic, R., Moggi, A., Moioli, S., Monroe, J., Morrocchi, M., Mroz, T., Mu, W., Muratova, V. N., Murphy, S., Muscas, C., Musico, P., Nania, R., Napolitano, T., Agasson, A. Navrer, Nessi, M., Nikulin, I., Oleinik, A., Oleynikov, V., Orsini, M., Ortica, F., Pagani, L., Pallavicini, M., Palmas, S., Pandola, L., Pantic, E., Paoloni, E., Paternoster, G., Pazzona, F., Peeters, S., Pegoraro, P. A., Pelczar, K., Pellegrini, L. A., Pellegrino, C., Pelliccia, N., Perotti, F., Pesudo, V., Picciau, E., Piemonte, C., Pietropaolo, F., Pocar, A., Pollmann, T. R., Portaluppi, D., Poudel, S. S., Pralavorio, P., Price, D., Radics, B., Raffaelli, F., Ragusa, F., Razeti, M., Razeto, A., Regazzoni, V., Regenfus, C., Renshaw, A. L., Rescia, S., Rescigno, M., Retiere, F., Rignanese, L. P., Rivetti, A., Romani, A., Romero, L., Rossi, N., Rubbia, A., Sablone, D., Sala, P., Salatino, P., Samoylov, O., García, E. Sánchez, Sanfilippo, S., Sant, M., Santone, D., Santorelli, R., Savarese, C., Scapparone, E., Schlitzer, B., Scioli, G., Segreto, E., Seifert, A., Semenov, D. A., Shchagin, A., Sheshukov, A., Siddhanta, S., Simeone, M., Singh, P. N., Skensved, P., Skorokhvatov, M. D., Smirnov, O., Sobrero, G., Sokolov, A., Sotnikov, A., Stainforth, R., Steri, A., Stracka, S., Strickland, V., Suffritti, G. B., Sulis, S., Suvorov, Y., Szelc, A. M., Tartaglia, R., Testera, G., Thorpe, T., Tonazzo, A., Tosi, A., Tuveri, M., Unzhakov, E. V., Usai, G., Vacca, A., Vázquez-Jáuregui, E., Verducci, M., Viant, T., Viel, S., Villa, F., Vishneva, A., Vogelaar, R. B., Wada, M., Wahl, J., Walding, J. J., Wang, H., Wang, Y., Westerdale, S., Wheadon, R. J., Williams, R., Wilson, J., Wojcik, Marcin, Wojcik, Mariusz, Wu, S., Xiao, X., Yang, C., Ye, Z., Zuffa, M., Zuzel, G., Aalseth C.E., Abdelhakim S., Acerbi F., Agnes P., Ajaj R., Albuquerque I.F.M., Alexander T., Alici A., Alton A.K., Amaudruz P., Ameli F., Anstey J., Antonioli P., Arba M., Arcelli S., Ardito R., Arnquist I.J., Arpaia P., Asner D.M., Asunskis A., Ave M., Back H.O., Barbaryan V., Barrado Olmedo A., Batignani G., Bisogni M.G., Bocci V., Bondar A., Bonfini G., Bonivento W., Borisova E., Bottino B., Boulay M.G., Bunker R., Bussino S., Buzulutskov A., Cadeddu M., Cadoni M., Caminata A., Canci N., Candela A., Cantini C., Caravati M., Cariello M., Carnesecchi F., Carpinelli M., Castellani A., Castello P., Catalanotti S., Cataudella V., Cavalcante P., Cavazza D., Cavuoti S., Cebrian S., Cela Ruiz J.M., Celano B., Cereseto R., Cheng W., Chepurnov A., Cicalo C., Cifarelli L., Citterio M., Coccetti F., Cocco A.G., Cocco V., Colocci M., Consiglio L., Cossio F., Covone G., Crivelli P., D'Antone I., D'Incecco M., D'Urso D., da Rocha Rolo M.D., Dadoun O., Daniel M., Davini S., de Candia A., de Cecco S., de Deo M., de Falco A., de Filippis G., de Gruttola D., de Guido G., de Rosa G., Dellacasa G., Demontis P., DePaquale S., Derbin A.V., Devoto A., Di Eusanio F., Di Noto L., Di Pietro G., Di Stefano P., Dionisi C., Dolganov G., Dordei F., Downing M., Edalatfar F., Empl A., Fernandez Diaz M., Ferri A., Filip C., Fiorillo G., Fomenko K., Franceschi A., Franco D., Froudakis G.E., Gabriele F., Gabrieli A., Galbiati C., Garbini M., Garcia Abia P., Gascon Fora D., Gendotti A., Ghiano C., Ghisi A., Giagu S., Giampa P., Giampaolo R.A., Giganti C., Giorgi M.A., Giovanetti G.K., Gligan M.L., Gola A., Gorchakov O., Grab M., Graciani Diaz R., Granato F., Grassi M., Grate J.W., Grigoriev G.Y., Grobov A., Gromov M., Guan M., Guerra M.B.B., Guerzoni M., Gulino M., Haaland R.K., Hackett B.R., Hallin A., Harrop B., Hoppe E.W., Horikawa S., Hosseini B., Hubaut F., Humble P., Hungerford E.V., Ianni An., Ilyasov A., Ippolito V., Jillings C., Keeter K., Kendziora C.L., Kim S., Kochanek I., Kondo K., Kopp G., Korablev D., Korga G., Kubankin A., Kugathasan R., Kuss M., Kuzniak M., la Commara M., la Delfa L., Lai M., Langrock S., Lebois M., Lehnert B., Levashko N., Li X., Liqiang Q., Lissia M., Lodi G.U., Longo G., Lopez Manzano R., Lussana R., Luzzi L., Machado A.A., Machulin I.N., Mandarano A., Mapelli L., Marcante M., Margotti A., Mari S.M., Mariani M., Maricic J., Marinelli M., Marras D., Martinez M., Martinez Morales J.J., Martinez Rojas A.D., Martoff C.J., Mascia M., Mason J., Masoni A., Mazzi A., McDonald A.B., Messina A., Meyers P.D., Miletic T., Milincic R., Moggi A., Moioli S., Monroe J., Morrocchi M., Mroz T., Mu W., Muratova V.N., Murphy S., Muscas C., Musico P., Nania R., Napolitano T., Navrer Agasson A., Nessi M., Nikulin I., Oleinik A., Oleynikov V., Orsini M., Ortica F., Pagani L., Pallavicini M., Palmas S., Pandola L., Pantic E., Paoloni E., Paternoster G., Pazzona F., Peeters S., Pegoraro P.A., Pelczar K., Pellegrini L.A., Pellegrino C., Pelliccia N., Perotti F., Pesudo V., Picciau E., Piemonte C., Pietropaolo F., Pocar A., Pollmann T.R., Portaluppi D., Poudel S.S., Pralavorio P., Price D., Radics B., Raffaelli F., Ragusa F., Razeti M., Razeto A., Regazzoni V., Regenfus C., Renshaw A.L., Rescia S., Rescigno M., Retiere F., Rignanese L.P., Rivetti A., Romani A., Romero L., Rossi N., Rubbia A., Sablone D., Sala P., Salatino P., Samoylov O., Sanchez Garcia E., Sanfilippo S., Sant M., Santone D., Santorelli R., Savarese C., Scapparone E., Schlitzer B., Scioli G., Segreto E., Seifert A., Semenov D.A., Shchagin A., Sheshukov A., Siddhanta S., Simeone M., Singh P.N., Skensved P., Skorokhvatov M.D., Smirnov O., Sobrero G., Sokolov A., Sotnikov A., Stainforth R., Steri A., Stracka S., Strickland V., Suffritti G.B., Sulis S., Suvorov Y., Szelc A.M., Tartaglia R., Testera G., Thorpe T., Tonazzo A., Tosi A., Tuveri M., Unzhakov E.V., Usai G., Vacca A., Vazquez-Jauregui E., Verducci M., Viant T., Viel S., Villa F., Vishneva A., Vogelaar R.B., Wada M., Wahl J., Walding J.J., Wang H., Wang Y., Westerdale S., Wheadon R.J., Williams R., Wilson J., Wojcik M., Wu S., Xiao X., Yang C., Ye Z., Zuffa M., Zuzel G., Barrado Olmedo, A., Cela Ruiz, J. M., Da Rocha Rolo, M. D., De Candia, A., De Cecco, S., De Deo, M., De Falco, A., De Filippis, G., De Gruttola, D., De Guido, G., De Rosa, G., Di Eusanio, F., Di Noto, L., Di Pietro, G., Di Stefano, P., Fernandez Diaz, M., Garcia Abia, P., Gascón Fora, D., Graciani Diaz, R., La Commara, M., La Delfa, L., López Manzano, R., Martínez Morales, J. J., Martinez Rojas, A. D., Navrer Agasson, A., Sánchez García, E., and Szelcc, A. M.

Subjects

Physics - Instrumentation and Detectors, gas and liquid scintillators), axions, Physics::Instrumentation and Detectors, Noble liquid detectors (scintillation, ionization, double-phase), 01 natural sciences, 030218 nuclear medicine & medical imaging, Dark Matter detectors (WIMPs, axions, etc.), 0302 clinical medicine, Recoil, Noble liquid detectors (scintillation, ionization, double-phase), Dark Matter detectors (WIMPs, axions, etc.), Cryogenic detectors, Scintillators, scintillation and light emission processes (solid, gas and liquid scintillators), Noble liquid detectors (scintillation, Cryogenic detectors, Scintillation and light emission processes (solid, gas, liquid scintillators), Scintillators, etc.), [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Detectors and Experimental Techniques, physics.ins-det, Instrumentation, Mathematical Physics, Physics, Scintillation and light emission processes (solid, Time projection chamber, Detector, Instrumentation and Detectors (physics.ins-det), double-phase), Dark Matter detectors(WIMPs, axions, etc.), Scintillators, scintillation and light emission processes(solid, gas and liquid scintillators), scintillation and light emission processes(solid, Weakly interacting massive particles, Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics and Astronomy, Dark matter, Cryogenic detector, chemistry.chemical_element, FOS: Physical sciences, Nuclear physics, 03 medical and health sciences, gas, ionization, 0103 physical sciences, liquid scintillators), Instrumentation and Methods for Astrophysics (astro-ph.IM), Dark Matter detectors (WIMPs, Argon, 010308 nuclear & particles physics, Canfranc Underground Laboratory, Scintillator, Dark Matter detectors(WIMPs, chemistry, astro-ph.IM, ArDM

Abstract

Large liquid argon detectors offer one of the best avenues for the detection of galactic weakly interacting massive particles (WIMPs) via their scattering on atomic nuclei. The liquid argon target allows exquisite discrimination between nuclear and electron recoil signals via pulse-shape discrimination of the scintillation signals. Atmospheric argon (AAr), however, has a naturally occurring radioactive isotope, $^{39}$Ar, a $\beta$ emitter of cosmogenic origin. For large detectors, the atmospheric $^{39}$Ar activity poses pile-up concerns. The use of argon extracted from underground wells, deprived of $^{39}$Ar, is key to the physics potential of these experiments. The DarkSide-20k dark matter search experiment will operate a dual-phase time projection chamber with 50 tonnes of radio-pure underground argon (UAr), that was shown to be depleted of $^{39}$Ar with respect to AAr by a factor larger than 1400. Assessing the $^{39}$Ar content of the UAr during extraction is crucial for the success of DarkSide-20k, as well as for future experiments of the Global Argon Dark Matter Collaboration (GADMC). This will be carried out by the DArT in ArDM experiment, a small chamber made with extremely radio-pure materials that will be placed at the centre of the ArDM detector, in the Canfranc Underground Laboratory (LSC) in Spain. The ArDM LAr volume acts as an active veto for background radioactivity, mostly $\gamma$-rays from the ArDM detector materials and the surrounding rock. This article describes the DArT in ArDM project, including the chamber design and construction, and reviews the background required to achieve the expected performance of the detector., Comment: 13 pages, 8 figures. Corresponding author: E. S\'anchez Garc\'ia

Published

2020

11. Results from the PolarquEEEst missions

Author

L. Cifarelli, S. De Pasquale, L. Galante, Luca Lombardo, F. Coccetti, Luca Baldini, Giancarlo C. Righini, G. Serri, Marcello Abbrescia, Rosario Nania, C. Pellegrino, L. Perasso, C. Avanzini, M. Selvi, Mn Mazziotta, E. Bossini, Antonino Zichichi, M. Rizzi, M. Taiuti, R. Baldini Ferroli, A. Corvaglia, A. Mulliri, Marco Schioppa, F. L. Fabbri, P. La Rocca, G. Batignani, D. De Gruttola, E. Scapparone, D. Cavazza, M. Panareo, A. Scribano, C. Cicalò, M. C. S. Williams, Z. Liu, Antonio Trifiro, G. Maron, S. Squarcia, Riccardo Travaglini, Gilda Scioli, O. Pinazza, A. Flammini, M. Garbini, C. Vistoli, Francesco Riggi, C. Ripoli, I. Gnesi, F. Palmonari, G. Balbi, S. Pisano, D. Falchieri, G. Gemme, S. Grazzi, M. Trimarchi, Despina Hatzifotiadou, F. Carnesecchi, E. Coccia, S. Boi, Riccardo Paoletti, G. Terreni, L. Votano, S. Meneghin, G. Sartorelli, R. Zuyeuski, M. Battaglieri, G. Torromeo, C. Veri, Giuseppe Mandaglio, F. Nozzoli, Francesco Noferini, M. Parvis, M. P. Panetta, P. Galeotti, C. Pinto, Abbrescia, M., Avanzini, C., Balbi, G., Baldini, L., Baldini Ferroli, R., Batignani, G., Battaglieri, M., Boi, S., Cavazza, D., Bossini, E., Carnesecchi, F., Cicalò, C., Cifarelli, L., Coccetti, F., Coccia, E., Corvaglia, A., De Gruttola, D., De Pasquale, S., Fabbri, F., Falchieri, D., Flammini, A., Galante, L., Galeotti, P., Garbini, M., Gemme, G., Gnesi, I., Grazzi, S., Hatzifotiadou, D., La Rocca, P., Liu, Z., Lombardo, L., Mandaglio, G., Maron, G., Mazziotta, M. N., Meneghin, S., Mulliri, A., Nania, R., Noferini, F., Nozzoli, F., Palmonari, F., Panareo, M., Panetta, M. P., Paoletti, R., Parvis, M., Pellegrino, C., Perasso, L., Pinazza, O., Pinto, C., Pisano, S., Riggi, F., Righini, G., Ripoli, C., Rizzi, M., Sartorelli, G., Scapparone, E., Schioppa, M., Scioli, G., Scribano, A., Selvi, M., Serri, G., Squarcia, S, Taiuti, M., Terreni, G., Torromeo, G., Travaglini, R., Trifirò, A., Trimarchi, M., Veri, C., Vistoli, C., Votano, L., Williams, M. C. S., Zichichi, A., and Zuyeuski, R.

Subjects

Physics, History, Detection of secondary cosmic muons, cosmic rays measurement, Detectors and Experimental Techniques, Computer Science Applications, Education

Abstract

The PolarquEEEst scientific programme consists in a series of measurements of the cosmic ray flux up to the highest latitudes. It started in Summer 2018, when three telescopes made out of scintillators readout by SiPMs were built and installed in Italy, Norway and on a sailboat leaving from North Island, to circumnavigate the Svalbard archipelago and land in Tromsø. They collected data on a latitude range from 44° N up to 82° N, with a dense sampling of the Northernmost interval. The PolarquEEEst mission continued afterwards with a series of measurements in Italy, Southward reaching Lampedusa, and in Germany. In May 2019 the PolarquEEEst collaboration accomplished another important result, installing a cosmic ray observatory for the detection of secondary cosmic muons at Ny Alesund, at 79° N, made of three independent identical detectors positioned a few hundred meters from each other, and synchronized in order to operate together as a network. The configuration used will allow high precision measurements never performed before at these latitudes on a long term, also interesting for their connection with environmental phenomena. The network will also complement the existing stations for the detection of cosmic neutrons at the Svalbard archipelago, enlarging by far the physics scope that is possible to pursue in this field at this peculiar location. Here the various missions are presented, and some preliminary results from the measurements performed are shown.

Published

2020

12. New high precision measurements of the cosmic charged particle rate beyond the Arctic Circle with the PolarquEEEst experiment

Author

L. Galante, A. Flammini, M. Garbini, M. Battaglieri, S. Meneghini, M. Taiuti, Marco Schioppa, M. Panareo, O. Pinazza, S. Squarcia, A. Scribano, G. Balbi, Francesco Noferini, G. Torromeo, S. Grazzi, C. Cicalo, M. Parvis, D. Cavazza, Despina Hatzifotiadou, Luca Lombardo, F. Coccetti, R. Baldini Ferroli, Riccardo Paoletti, Davide Falchieri, P. La Rocca, G. Terreni, D. De Gruttola, M. Trimarchi, Farid Ould-Saada, M. P. Panetta, Z. Liu, G. Serri, Riccardo Travaglini, Eugenio Scapparone, Francesco Riggi, A. Zichichi, S. Boi, C. Vistoli, Rosario Nania, C. Avanzini, G. Gemme, M. Selvi, C. Pellegrino, G. Batignani, C. Pinto, M. C. S. Williams, Antonio Trifiro, G. Maron, L. Perasso, C. Ripoli, Eirik Gramstad, F. Carnesecchi, E. Coccia, A. Mulliri, F. Palmonari, R. Zuyeuski, Anselmo Margotti, L. Cifarelli, S. De Pasquale, F. L. Fabbri, A. Corvaglia, Edoardo Bossini, Gilda Scioli, M. Arlandoo, L. Votano, Gabriella Sartorelli, Giancarlo C. Righini, I. Gnesi, C. Veri, E. S. Haland, Giuseppe Mandaglio, F. Nozzoli, Luca Baldini, Marcello Abbrescia, S. Pisano, Mn Mazziotta, M. Rizzi, S. A. Millerjord, Abbrescia M., Avanzini C., Arlandoo M., Balbi G., Baldini L., Ferroli R.B., Batignani G., Battaglieri M., Boi S., Cavazza D., Bossini E., Carnesecchi F., Cicalo C., Cifarelli L., Coccetti F., Coccia E., Corvaglia A., De Gruttola D., De Pasquale S., Fabbri F., Falchieri D., Flammini A., Galante L., Garbini M., Gemme G., Gnesi I., Gramstad E., Grazzi S., Haland E.S., Hatzifotiadou D., La Rocca P., Liu Z., Lombardo L., Mandaglio G., Margotti A., Maron G., Mazziotta M.N., Meneghini S., Millerjord S.A., Mulliri A., Nania R., Noferini F., Nozzoli F., Ould-Saada F., Palmonari F., Panareo M., Panetta M.P., Paoletti R., Parvis M., Pellegrino C., Riggi F., Righini G., Ripoli C., Rizzi M., Sartorelli G., Scapparone E., Schioppa M., Scioli G., Scribano A., Selvi M., Serri G., Squarcia S., Taiuti M., Terreni G., Torromeo G., Travaglini R., Trifiro A., Trimarchi M., Veri C., Vistoli C., Votano L., Williams M.C.S., Zichichi A., Zuyeuski R., Abbrescia, M., Avanzini, C., Arlandoo, M., Balbi, G., Baldini, L., Ferroli, R. Baldini, Batignani, G., Battaglieri, M., Boi, S., Cavazza, D., Bossini, E., Carnesecchi, F., Cicalò, C., Cifarelli, L., Coccetti, F., Coccia, E., Corvaglia, A., De Gruttola, D., De Pasquale, S., Fabbri, F., Falchieri, D., Flammini, A., Galante, L., Garbini, M., Gemme, G., Gnesi, I., Gramstad, E., Grazzi, S., Håland, E. S., Hatzifotiadou, D., La Rocca, P., Liu, Z., Lombardo, L., Mandaglio, G., Margotti, A., Maron, G., Mazziotta, M. N., Meneghini, S., Millerjord, S. A., Mulliri, A., Nania, R., Noferini, F., Nozzoli, F., Ould-Saada, F., Palmonari, F., Panareo, M., Panetta, M. P., Paoletti, R., Parvis, M., Pellegrino, C., Riggi, F., Righini, G., Ripoli, C., Rizzi, M., Sartorelli, G., Scapparone, E., Schioppa, M., Scioli, G., Scribano, A., Selvi, M., Serri, G., Squarcia, S., Taiuti, M., Terreni, G., Torromeo, G., Travaglini, R., Trifirò, A., Trimarchi, M., Veri, C., Vistoli, C., Votano, L., Williams, M. C. S., Zichichi, A., and Zuyeuski, R.

Subjects

Physics, Astrophysics and Astronomy, COSMIC cancer database, Physics and Astronomy (miscellaneous), Cosmic rays, PolarquEEEst, Arctic Circle, Astronomy, lcsh:Astrophysics, Charged particle, high precision measurement, The arctic, lcsh:QB460-466, cosmic charged particles, lcsh:QC770-798, cosmic charged particles, high precision measurement, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, Cosmic charged particle rate mesurements at high latitude, Engineering (miscellaneous)

Abstract

The goal of the PolarquEEEst experiment was to measure the cosmic charged particle rate at latitudes greater than 66$$^{\circ }$$∘N, where no systematic and accurate measurements at sea level have ever been performed. A latitude range well above the Arctic Circle was explored on board of a sailboat, up to the unprecedented northernmost value of$$82^{\circ }07^{\prime }$$82∘07′N. In this paper a description of the experimental set-up is reported, then the procedures for calibration and data analysis are described in detail. The results show that the rate measured in this latitude range stays constant within a novel accuracy of$$\pm 1$$±1%.

Published

2020

13. A multi-channel trigger and acquisition board for TDC-based readout: Application to the cosmic rays detector of the PolarQuEEEst 2018 project

Author

Luca Lombardo, D. Cavazza, Riccardo Travaglini, O. Pinazza, G. Torromeo, Francesco Noferini, Davide Falchieri, G. Balbi, C. Pellegrino, Mn Mazziotta, I. Gnesi, S. Meneghini, C. Veri, and M. Garbini

Subjects

Software portability, Scintillation, Silicon photomultiplier, Computer science, Backup, business.industry, Detector, Process (computing), Detectors and Experimental Techniques, Chip, business, Field-programmable gate array, Computer hardware

Abstract

In the summer of 2018, the PolarQuEEEst experiment accomplished a measurement of cosmic rays flux in the Arctic. The detector, installed on a sailboat, was based on scintillation tiles read by a total of 16 SiPM. A multi-channel board (called TRB) has been designed to process the discriminated SiPM signals providing both self-trigger capability and time-to-digital conversion; it was based on a Cyclone-V Intel FPGA. Time-to-digital conversion has been implemented both into FPGA and with the HPTDC chip (as a backup). In this document the board will be described, enlightening the main features and the achieved performance. Lastly, the PolarQuEEEst measurement campaigns will be briefly described, showing how the TRB board has proved to be effective for experiments which require low power consumption, integration with position and environmental sensors and great portability as well. Final thoughts on future improvements will be also discussed.

Published

2019

14. Quality Assurance procedures for the construction of ALICE TOF detector

Author

G. Pancaldi, F. Massera, M. Basile, Daijin Kim, M. Furini, Chiara Zampolli, Silvia Arcelli, S. Alessandrini, Michele Guida, M. Zuffa, R. Pilastrini, Gilda Scioli, A. De Caro, S. Sellitto, A.V. Smirnitski, Rosario Nania, B.V. Zagreev, Y. u. Grishuk, Ombretta Pinazza, R. Michinelli, W. W. Jung, G. Laurenti, F. Semeria, I. D'Antone, G. Cara Romeo, Pietro Antonioli, Luisa Cifarelli, E. Usenko, Kirill Voloshin, R. Silvestri, S. Serra, Despina Hatzifotiadou, Roberto Preghenella, Eugenio Scapparone, D. W. Kim, M. Ryabinin, M. Guerzoni, M.L. Luvisetto, A. Zucchini, S. De Pasquale, A. Di Bartolomeo, Sergey Kiselev, M. C. S. Williams, M. Rizzi, A. Pesci, S. Meneghini, V. Golovin, M. Fusco Girard, D. Cavazza, A. Zichichi, Hyun-Chul Kim, Anselmo Margotti, Andrea Alici, Francesco Noferini, Federico Cindolo, Alexander Akindinov, A. Zinine, E. Ugolini, Dmitry Mal'kevich, A. Akindinov, S. Alessandrini, A. Alici, P. Antonioli, S. Arcelli, M. Basile, G. Cara Romeo, D. Cavazza, L. Cifarelli, F. Cindolo, I. D'Antone, A. De Caro, S. De Pasquale, A. Di Bartolomeo, M. Furini, M. Fusco Girard, V. Golovin, Yu. Grishuk, M. Guerzoni, M. Guida, D. Hatzifotiadou, W.W. Jung, H.N. Kim, D.H. Kim, D.W. Kim, S. Kiselev, G. Laurenti, M.L. Luvisetto, D. Mal’kevich, A. Margotti, F. Massera, S. Meneghini, R. Michinelli, R. Nania, F. Noferini, G. Pancaldi, A. Pesci, R. Pilastrini, O. Pinazza, R. Preghenella, M. Rizzi, M. Ryabinin, E. Scapparone, G. Scioli, S. Sellitto, F. Semeria, S. Serra, R. Silvestri, A. Smirnitskiy, E. Ugolini, E. Usenko, K. Voloshin, M.C.S. William, B. Zagreev, C. Zampolli, A. Zichichi, A. Zinine, A. Zucchini, and M. Zuffa

Subjects

Nuclear and High Energy Physics, Engineering, Spectrometer, business.industry, Detector, Atomic and Molecular Physics, and Optics, Particle detector, Reliability engineering, Set (abstract data type), Measuring instrument, ALICE (propellant), business, Quality assurance, Simulation, Single chamber

Abstract

The goal of the MRPC–detector production for the ALICE TOF is to guarantee the same excellent performances obtained so far with all the prototypes. A set of quality assurance tests has been developed for this purpose; these tests are applied both to the single chamber components and to the assembled detectors. In this paper the results of these tests over a few hundreds MRPCs of the mass production will be presented.

Published

2006

15. Interacting with a 'Companion' Embodied Conversational Agent: an Implementation

Author

M.Smith C.Crook N.T.Boye J.Charlton D.Pizzi D. Cavazza and S. Pulman

Published

2016

16. Measurement of time resolution of thermoregulated SiPM for time of flight detectors

Author

D. Cavazza, M. Zuffa, E. Foschi, Giuseppe Levi, I. Lax, I. D'Antone, Lucio Quadrani, Carla Sbarra, and C. Guandalini

Subjects

Physics, Nuclear and High Energy Physics, Physics::Instrumentation and Detectors, business.industry, Amplifier, Detector, Photon counting, law.invention, Telescope, Front and back ends, Time of flight, Optics, Silicon photomultiplier, law, Electronics, business, Instrumentation

Abstract

Silicon Photomultipliers (SiPM) are considered very promising in many application where high timing performances, low cost, hardness to radiation damage and single photon counting are requested. Such applications go from astrophysics, high energy accelerator physics to medical physics. A group of SiPM from Hamamatsu has been tested with a low noise fast amplifier based on a hetero-junction FET, mounted on a proper front end board. A first telescope prototype has been used to test the electronics and results are shown. The SiPM time resolution has been measured to be σ ∼30 ps, in agreement with other studies reported in literature. The SiPM gain depends critically on temperature and a thermoelectric module to control the circuit was also studied in order to use the system for space detectors.

Published

2012

17. Controlling crosslinking in thermosets via chain transfer with monoterpenes

Author

Justin M. Delancey, Matthew G. Rendos, Robert T. Mathers, Cory J. Ulisse, Matthew D. Cavazza, and Susan G. Palumbo

Subjects

Thermogravimetric analysis, Polymers and Plastics, Organic Chemistry, Chain transfer, ROMP, Dynamic mechanical analysis, Metathesis, chemistry.chemical_compound, chemistry, Dicyclopentadiene, Materials Chemistry, Organic chemistry, Thermal stability, Glass transition

Abstract

Renewable resources have been utilized to control the degree of crosslinking during ring-opening metathesis polymerizations (ROMP). In this regard, the addition of monoterpenes to thermosets created a sustainable method for adjusting the physical properties and thermal stability. A number of monoterpenes with alkenes were examined as monofunctional reactants. The presence of these monoterpenes, such as β-pinene, during the ROMP of dicyclopentadiene altered the degree of crosslinking and plasticized the thermoset. The resulting physical properties were tailored to obtain desired modulus and glass transition (Tg) temperatures. The influence of time, temperature, weight percent β-pinene, and different metathesis catalysts was examined by dynamic mechanical analysis, thermogravimetric analysis, and FTIR spectroscopy. A comparison of β-pinene with other monoterpenes, such as carvone, limonene oxide, myrcene, and d-limonene, resulted in a reactivity profile for this general method. © 2011 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2011

Published

2011

18. Time resolution measurements with SiPMs coupled to a scintillator

Author

Silvia Arcelli, M. C. S. Williams, D. De Gruttola, Federico Cindolo, Jeremy John Wilkinson, M. Fusco Girard, Chiara Zampolli, Pietro Antonioli, F. Bellini, Luisa Cifarelli, Eugenio Scapparone, D. Cavazza, Francesco Noferini, Roberto Preghenella, Anselmo Margotti, Andrea Alici, D. Hatzifotiadou, S. De Pasquale, Manuel Colocci, A. De Caro, Z. A. Liu, Ombretta Pinazza, M. Basile, F. Carnesecchi, Gilda Scioli, R. Zuyeuski, A. Zichichi, O. Maragoto Rodriguez, Rosario Nania, Elisa Meninno, N. Jacazio, Alici, A., Antonioli, P., Arcelli, S., Basile, M., Bellini, F., Carnesecchi, F., Cavazza, D., Cifarelli, L., Cindolo, F., Colocci, M., Caro, A. De, Gruttola, D. De, Pasquale, S. De, Girard, M. Fusco, Hatzifotiadou, D., Jacazio, N., Liu, Z., Rodriguez, O. Maragoto, Margotti, A., Meninno, E., Nania, R., Noferini, F., Pinazza, O., Preghenella, R., Scapparone, E., Scioli, G., Wilkinson, J., Williams, M.C.S., Zampolli, C., Zichichi, A., and Zuyeuski, R.

Subjects

Optical fiber, APDS, Physics::Instrumentation and Detectors, Scintillator, 01 natural sciences, law.invention, Silicon photomultiplier, Optics, law, 0103 physical sciences, Detectors and Experimental Techniques, Instrumentation, Mathematical Physics, Photon detectors for UV, visible and IR photons (solid-state) (PIN diodes, APDs, Si-PMTs, G-APDs, CCDs, EBCCDs, EMCCDs etc), 010302 applied physics, Physics, 010308 nuclear & particles physics, business.industry, Instrumentation and methods for time-of-flight (TOF) spectroscopy, Detector, Scintillators, scintillation and light emission processes (solid, gas and liquid scintillators), Beamline, Timing detector, Physics::Accelerator Physics, Direct coupling, business, Beam (structure)

Abstract

This paper reports on the results of time resolution measurements of detectors consisting of SiPMs coupled to a scintillator. The R&D; has been performed both in a cosmic-ray setup, at the Bologna INFN laboratories, and in a beam test, at the CERN T10 beam line. Different couplings, direct or by means of optical fibres, have been tested. The measurements indicate that to reach better time resolutions, it is important to have a direct coupling between the SiPM and the scintillator. A time resolution of 67 ps has been achieved, for the direct coupling, broadened by the full electronics chain jitter.

Published

2018

19. A topological trigger based on the Time-of-Flight detector for the ALICE experiment

Author

R. Pilastrini, A. Nedosekin, G. Cara Romeo, M. Guerzoni, Silvia Arcelli, S. De Pasquale, M. C. S. Williams, G. Patimo, Sangeun Lee, A. De Caro, B.V. Zagreev, Junlee Kim, F. Semeria, S. Kiselev, E. Ugolini, D. W. Kim, Alexander Akindinov, Yongwook Baek, S. Zagato, K. Voloshin, D. De Gruttola, M. Zuffa, Antonino Zichichi, G. Pancaldi, A. Silenzi, M. Basile, M. Ryabinin, Francesco Noferini, A. Zucchini, M.L. Luvisetto, M. Fusco Girard, Rosario Nania, D. Cavazza, M. Furini, Ombretta Pinazza, Gilda Scioli, D. S. Kim, R. Michinelli, M. Rizzi, A. Pesci, Pietro Antonioli, Luisa Cifarelli, Despina Hatzifotiadou, Chiara Zampolli, G.V. Russo, G. Laurenti, S. Donati, Roberto Preghenella, M. Tchoumakov, W. W. Jung, Kyong Sei Lee, Claudio Guarnaccia, S. Serra, Paolo Pagano, F. Massera, S. Meneghini, Hyun-Chul Kim, Hannes Jung, Anselmo Margotti, Dmitry Mal'kevich, Eugenio Scapparone, Andrea Alici, Federico Cindolo, A. Akindinov, A. Alici, P. Antonioli, S. Arcelli, Y.W. Baek, M. Basile, G. Cara Romeo, D. Cavazza, L. Cifarelli, F. Cindolo, A. De Caro, D. De Gruttola, S. De Pasquale, S. Donati, M. Furini, M. Fusco Girard, C. Guarnaccia, M. Guerzoni, D. Hatzifotiadou, H.T. Jung, W.W. Jung, D.S. Kim, D.W. Kim, H.N. Kim, J.S. Kim, S.Kiselev, G.Laurenti, K. Lee, S.C.Lee, M.L. Luvisetto, D. Malkevich, A. Margotti, F. Massera, S. Meneghini, R.Nania, A. Nedosekin, F.Noferini, P. Pagano, G. Pancaldi, G. Patimo, A. Pesci, R. Pilastrini, O. Pinazza, R. Preghenella, M. Rizzi, G.Russo, M. Ryabinin, E. Scapparone, G. Scioli, F. Semeria, S. Serra, A. Silenzi, M. Tchoumakov, E. Ugolini, K. Voloshin, M.C.S. William, S. Zagato, B. Zagreev, C. Zampolli, A.Zichichi, A. Zucchini, and M. Zuffa

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Time of flight detector, Physics::Instrumentation and Detectors, Detector, TOF, HEAVY ION, MRPC, Heavy ion, Cosmic muons, Instrumentation, FPGA, TRIGGER

Abstract

The goal of the ALICE Time-of-Flight detector, based on MRPC technology, is to perform the charged-particle identification at midrapidity, in the region |η

Published

2009

20. The ALICE Time-Of-Flight system: Construction, assembly and quality tests

Author

A. Akindinov, P. Antonioli, Y. W. Baek, G. Cara Romeo, D. Cavazza, F. Cindolo, A. De Caro, D. De Gruttola, S. De Pasquale, A. Evangelista, M. Furini, M. Fusco Girard, C. Guarnaccia, M. Guerzoni, D. Hatzifotiadou, H. T. Jung, W. W. Jung, D. S. Kim, D. W. Kim, H. N. Kim, J. S. Kim, S. Kiselev, G. Laurenti, K. Lee, S. C. Lee, M. L. Luvisetto, D. Malkevich, A. Margotti, F. Massera, S. Meneghini, R. Nania, A. Nedosekin, F. Noferini, P. Pagano, G. Pancaldi, G. Patimo, A. Pesci, R. Pilastrini, O. Pinazza, R. Preghenella, M. Rizzi, G. Russo, M. Ryabinin, E. Scapparone, F. Semeria, S. Serra, M. Tchoumakov, E. Ugolini, K. Voloshin, M. C. S. Williams, S. Zagato, B. Zagreev, C. Zampolli, A. Zichichi, A. Zucchini, M. Zuffa, ALICI, ANDREA, ARCELLI, SILVIA, BASILE, MAURIZIO, CIFARELLI, LUISA, SCIOLI, GILDA, SILENZI, ALESSANDRO, A. Akindinov, A. Alici, P. Antonioli, S. Arcelli, Y.W. Baek, M. Basile, G. Cara Romeo, D. Cavazza, L. Cifarelli, F. Cindolo, A. De Caro, D. De Gruttola, S. De Pasquale, A. Evangelista, M. Furini, M. Fusco Girard, C. Guarnaccia, M. Guerzoni, D. Hatzifotiadou, H.T. Jung, W.W. Jung, D.S. Kim, D.W. Kim, H.N. Kim, J.S. Kim, S.Kiselev, G.Laurenti, K. Lee, S.C.Lee, M.L. Luvisetto, D. Malkevich, A. Margotti, F. Massera, S. Meneghini, R.Nania, A. Nedosekin, F.Noferini, P. Pagano, G. Pancaldi, G. Patimo, A. Pesci, R. Pilastrini, O. Pinazza, R. Preghenella, M. Rizzi, G.Russo, M. Ryabinin, E. Scapparone, G. Scioli, F. Semeria, S. Serra, A. Silenzi, M. Tchoumakov, E. Ugolini, K. Voloshin, M.C.S. William, S. Zagato, B. Zagreev, C. Zampolli, A.Zichichi, A. Zucchini, and M. Zuffa

Subjects

PROTOTYPE, TOF, RESISTIVE PLATE CHAMBER, DETECTOR, MULTIGAP RPC

Abstract

The ALICE Time-Of-Flight (TOF) detector is based on the Multigap Resistive Plate Chamber (MRPC) technology capable of a total time resolution (intrinsic + electronics) of approximate to 50ps. The detector is made of 1638 MRPCs located in 90 gas-tight modules distributed over 18 azimuthal sectors (SuperModules, SM). The front-end electronics is based on a very fast low-power amplifier/discriminator ASIC (NINO), while the readout relies on the High-Performance TDC (HPTDC) Chip. In ALICE the global TOF time resolution is expected to be < 100 ps. In this paper the MRPGs production and tests are described together with the module and SM assembly procedures and duality tests.

Published

2009

21. The MRPC detector for the ALICE Time Of Flight System: Final design and performances

Author

Rosario Nania, B.V. Zagreev, Pietro Antonioli, Luisa Cifarelli, Despina Hatzifotiadou, S. Alessandrini, F. Massera, Hyun-Chul Kim, A. Zucchini, A. Di Bartolomeo, V. Golovin, Daijin Kim, M. Guerzoni, G. Pancaldi, Kirill Voloshin, Michele Guida, Anselmo Margotti, M. Zuffa, R. Michinelli, Federico Cindolo, G. Laurenti, M. C. S. Williams, R. Silvestri, Sergey Kiselev, M. Ryabinin, A.V. Smirnitski, Roberto Preghenella, E. Usenko, R. Pilastrini, M. Rizzi, F. Semeria, A. Pesci, Andrea Alici, Silvia Arcelli, S. Serra, A. De Caro, A. Zichichi, Y. u. Grishuk, S. Meneghini, Eugenio Scapparone, Dmitry Mal'kevich, G. Cara Romeo, S. De Pasquale, Ombretta Pinazza, I. D'Antone, Gilda Scioli, S. Sellitto, D. W. Kim, M.L. Luvisetto, W. W. Jung, Chiara Zampolli, M. Basile, E. Ugolini, M. Furini, Francesco Noferini, A. Zinine, Alexander Akindinov, M. Fusco Girard, D. Cavazza, A. Akindinov, S. Alessandrini, A. Alici, P. Antonioli, S. Arcelli, M. Basile, G. Cara Romeo, D. Cavazza, L. Cifarelli, F. Cindolo, I. D'Antone, A. De Caro, S. De Pasquale, A. Di Bartolomeo, M. Furini, M. Fusco Girard, V. Golovin, Yu. Grishuk, M. Guerzoni, M. Guida, D. Hatzifotiadou, W.W. Jung, H.N. Kim, D.H. Kim, D.W. Kim, S. Kiselev, G. Laurenti, M.L. Luvisetto, D. Mal’kevich, A. Margotti, F. Massera, S. Meneghini, R. Michinelli, R. Nania, F. Noferini, G. Pancaldi, A. Pesci, R. Pilastrini, O. Pinazza, R. Preghenella, M. Rizzi, M. Ryabinin, E. Scapparone, G. Scioli, S. Sellitto, F. Semeria, S. Serra, R. Silvestri, A. Smirnitskiy, E. Ugolini, E. Usenko, K. Voloshin, M.C.S. William, B. Zagreev, C. Zampolli, A. Zichichi, A. Zinine, A. Zucchini, and M. Zuffa

Subjects

Physics, Nuclear and High Energy Physics, Range (particle radiation), Physics::Instrumentation and Detectors, Detector, Time resolution, Atomic and Molecular Physics, and Optics, Charged particle, Nuclear physics, Momentum, Time of flight, Pseudorapidity, ALICE (propellant), Nuclear Experiment

Abstract

The ALICE Time Of Flight (TOF) system will perform charged particle identification in the intermediate momentum range (from 0.5 to a few GeV/c) and in the central pseudorapidity region ( | η | 0.9 ). In particular the TOF has to cover an area of ∼ 160m2 and has to be highly segmented (∼ 160000 readout pads of 2.5 × 3.7 cm2 active area) in order to keep the occupancy in Pb-Pb collisions below the 15 % level. In order to satisfy these requirements, the double-stack MRPC detector has been chosen for the TOF system. The most relevant results on the performances of the final version of the MRPC and of the front-end/readout electronics will be presented. The device has a very good uniformity, a long streamer-free plateau, an efficiency higher than 99 % and an intrinsic time resolution below 50 ps.

Published

2006

22. Crustal-Scale Architecture and Heat Flow Account in Ultra-Deep Water Lower Congo Basin

Author

Filippos Tsikalas, D. Cavazza, Andrea Cappelletti, F. Lottaroli, F. Coraggio, E. Vitagliano, F. Salvi, and G.M. Cella

Subjects

Regional geology, Tectonics, Hydrogeology, Source rock, Analogue modelling, Subsidence, Seismic refraction, Structural basin, Petrology, Geomorphology, Geology

Abstract

Abstract In the present study the integration between interpreted seismic reflection profiles, available seismic refraction data, 2D gravity modelling, 2D structural restoration and sandbox analogue modelling are used to depict the crustal-scale architecture and elucidate heat flow issues in the ultra-deep water Lower Congo Basin in order to provide a constrained input to the subsequently performed thermo-tectonic and petroleum system modelling of the investigated region. The integrated analysis provides a state-of-the-art of the large-scale structural and basin evolution of the ultra-deep water Lower Congo Basin. Locally hyper-extended and denser continental crystalline crust is revealed in the area of study. Structural restoration indicates anomalously extensive subsidence at a short time-interval (112–98 Ma) just after breakup. Considerable stretching ß-factors are revealed within the ultra-deep water region at two modelled transects. Processes that governed the pre-breakup extension have been constrained through analogue modeling. Based on the above multi-fold analysis potential geothermal-gradient scenarios have been considered in petroleum system modelling that shown important effect on the generation history of a pre-salt source rock potentially present in the deep-water. Introduction Heat flow account and its petroleum system efficiency implications are key risk factors in hydrocarbon exploration. Increasing exploration interest for deep seated pre-salt targets in the South Atlantic, far from any well penetration control points (deep water and ultra-deep water), has brought to attention the importance of correctly modelling the heat flow and its reconstruction through the South Atlantic rifting process and basin evolution. Eni has been active on the West-Africa pre-salt Play since the early 60's and recently has been on the front row in trying to unravel un-explored potential of this Play in frontier areas (deep waters). The extensional margin evolution from rift through breakup rapture of the continental lithosphere to progressive oceanic crust formation remains controversial (e.g. Rosendahl et al., 2005). Complicating the issue, the deep crustal structures along several margins are partially or totally masked by evaporate deposits and/or by magmatic materials which deteriorate the seismic reflection resolution at depth. Furthermore, the complex interaction of structural and magmatic relationships during continental rifting and breakup results in a wide variety of margin styles, ranging from narrow to wide, and from "magma-dominated" to "magma-poor" margin rift-systems with different heat flow evolution. The South Atlantic passive margins formed during Mesozoic time as a result of lithospheric extension followed by breakup of the Paleozoic Gondwana super-continent. The opening of the South Atlantic which started in the southern portion and propagated towards the North, resulted in considerable diachronic deformation. All recent studies show that although the South Atlantic Central Segment experienced some volcanism during breakup, magmatic products were not sufficiently voluminous to form seaward dipping reflections (SDRs), and thus the Central Segment conjugate margins exhibit "magma-poor" affinity (e.g. Moulin et al., 2009; Lentini et al., 2010; Huismans and Beaumont, 2011).

Published

2013

23. Thermo-kinematic modelling and organic matter maturity analysis of the Alpine rifting in the Southern Alps (N. Italy

Author

D. Cavazza, Eugenio Carminati, Davide Scrocca, and Carlo Doglioni

Subjects

Maturity (geology), Tectonics, geography, Rift, Plateau, geography.geographical_feature_category, Aptian, Passive margin, Mesozoic, Geomorphology, Cretaceous, Geology

Abstract

In this paper we demonstrated how thermo-kinematic models and organic matter maturity data can be integrated to unravel the evolution of continental rifts. In particular we apply this model to an E-W 400 km long transect that cuts across the whole Southern Alps in northern Italy (Fig. 1). This profile, published by Fantoni and Scotti (2003), provides a valuable picture of the Mesozoic passive continental margin of the Adriatic plate at the end of Lower Cretaceous time (Aptian pp.). It is largely based, in its western and central part (about 250 km extending from the Biellese area to the Trento Plateau), on the palinspastic reconstruction proposed by Bertotti et al.(1993). Further east, this profile has been extended by Fantoni and Scotti (2003) to include the Belluno Basin and the Julian Plateau (Sarti et al., 1993).

Published

2008

24. The ALICE experiment at the CERN LHC

Author

Collaboration, The ALICE, Aamodt, K., Quintana, A Abrahantes, Achenbach, R., Acounis, S., Adamová, D., Adler, C., Aggarwal, M., Agnese, F., Rinella, G Aglieri, Ahammed, Z., Ahmad, A., Ahmad, N., Ahmad, S., Akindinov, A., Akishin, P., Aleksandrov, D., Alessandro, B., Alfaro, R., Alfarone, G., Alici, A., Alme, J., Alt, T., Altinpinar, S., Amend, W., Andrei, C., Andres, Y., Andronic, Anton, Anelli, G., Anfreville, M., Angelov, V., Anzo, A., Anson, C., Anticić, T., Antonenko, V., Antonczyk, D., Antinori, F., Antinori, S., Antonioli, P., Aphecetche, L., Appelshäuser, H., Aprodu, V., Arba, M., Arcelli, S., Argentieri, A., Armesto, N., Arnaldi, R., Arefiev, A., Arsene, I., Asryan, A., Augustinus, A., Awes, T. C., Äysto, J., Azmi, M Danish, Bablock, S., Badalà, A., Badyal, S. K., Baechler, J., Bagnasco, S., Bailhache, Raphaelle, Bala, R., Baldisseri, A., Baldit, A., Bán, J., Barbera, R., Barberis, P-L, Barbet, J. M., Barnäfoldi, G., Barret, V., Bartke, J., Bartos, D., Basile, M., Basmanov, V., Bastid, N., Batigne, G., Batyunya, B., Baudot, J., Baumann, C., Bearden, I., Becker, B., Belikov, J., Bellwied, R., Belmont-Moreno, E., Belogianni, A., Belyaev, S., Benato, A., Beney, J. L., Benhabib, L., Benotto, F., Beolé, S., Berceanu, I., Bercuci, A., Berdermann, Eleni, Berdnikov, Y., Bernard, C., Berny, R., Berst, J. D., Bertelsen, H., Betev, L., Bhasin, A., Baskar, P., Bhati, A., Bianchi, N., Bielčik, J., Bielčiková, J., Bimbot, L., Blanchard, G., Blanco, F., Blau, D., Blume, C., Blyth, S., Boccioli, M., Bogdanov, A., Bøggild, H., Bogolyubsky, M., Boldizsár, L., Bombara, M., Bombonati, C., Bondila, M., Bonnet, D., Bonvicini, V., Borel, H., Borotto, F., Borshchov, V., Bortoli, Y., Borysov, O., Bose, S., Bosisio, L., Botje, M., Böttger, S., Bourdaud, G., Bourrion, O., Bouvier, S., Braem, A., Braun, M., Braun-Munzinger, Peter, Bravina, L., Bregant, M., Bruckner, G., Brun, R., Bruna, E., Brunasso, O., Bruno, G. E., Bucher, D., Budilov, V., Budnikov, D., Buesching, H., Buncic, P., Burns, M., Burachas, S., Busch, O., Bushop, J., Cai, X., Caines, H., Calaon, F., Caldogno, M., Cali, I., Camerini, P., Campagnolo, R., Campbell, M., Cao, X., Capitani, G. P., Romeo, G Cara, Cardenas-Montes, M., Carduner, H., Carena, F., Carena, W., Cariola, P., Carminati, F., Casado, J., Diaz, A Casanova, Caselle, M., Castellanos, J Castillo, Castor, J., Catanescu, V., Cattaruzza, E., Cavazza, D., Cerello, P., Ceresa, S., Černý, V., Chambert, V., Chapeland, S., Charpy, A., Charrier, D., Chartoire, M., Charvet, J. L., Chattopadhyay, S., Chepurnov, V., Chernenko, S., Cherney, M., Cheshkov, C., Cheynis, B., Chochula, P., Chiavassa, E., Barroso, V Chibante, Choi, J., Christakoglou, P., Christiansen, P., Christensen, C., Chykalov, O. A., Cicalo, C., Cifarelli-Strolin, L., Ciobanu, Mircea Iuliu, Cindolo, F., Cirstoiu, C., Clausse, O., Cleymans, J., Cobanoglu, O., Coffin, J-P, Coli, S., Colla, A., Colledani, C., Combaret, C., Combet, M., Comets, M., Balbastre, G Conesa, Valle, Z Conesa Del, Contin, G., Contreras, J., Cormier, T., Corsi, F., Cortese, P., Costa, F., Crescio, E., Crochet, P., Cuautle, E., Cussonneau, J., Dahlinger, Michael, Dainese, A., Dalsgaard, H. H., Daniel, L., Das, I., Das, T., Dash, A., Silva, R Da, Davenport, M., Daues, H., Caro, A De, Cataldo, G De, Cuveland, J De, Falco, A De, Gaspari, M De, Girolamo, P De, Groot, J De, Gruttola, D De, Haas, A De, Marco, N De, Pasquale, S De, Remigis, P De, Vaux, D De, Decock, G., Delagrange, H., Franco, M Del, Dellacasa, G., Dell'Olio, C., Dell'Olio, D., Deloff, A., Demanov, V., Dénes, E., D'Erasmo, G., Derkach, D., Devaux, A., Bari, D Di, Bartelomen, A Di, Giglio, C Di, Liberto, S Di, Mauro, A Di, Nezza, P Di, Dialinas, M., Diaz, L., Valdes, R Díaz, Dietel, T., Dima, R., Ding, H., Dinca, C., Divià, R., Dobretsov, V., Dobrin, A., Dönigus, Benjamin, Dobrowolski, T., Domínguez, I., Dorn, M., Drouet, S., Dubey, A. E., Ducroux, L., Dumitrache, F., Dumonteil, E., Dupieux, P., Duta, V., Majumdar, A Dutta, Majumdar, M Dutta, Dyhre, Th, Efimov, L., Efremov, A., Elia, D., Emschermann, D., Engster, C., Enokizono, A., Espagnon, B., Estienne, M., Evangelista, A., Evans, D., Evrard, S., Fabjan, C. W., Fabris, D., Faivre, J., Falchieri, D., Fantoni, A., Farano, R., Fearick, R., Fedorov, O., Fekete, V., Felea, D., Feofilov, G., Téllez, A Férnandez, Ferretti, A., Fichera, F., Filchagin, S., Filoni, E., Finck, C., Fini, R., Fiore, E. M., Flierl, D., Floris, M., Fodor, Z., Foka, Y., Fokin, S., Force, P., Formenti, F., Fragiacomo, E., Fragkiadakis, M., Fraissard, D., Franco, A., Franco, M., Frankenfeld, Ulrich, Fratino, U., Fresneau, S., Frolov, A., Fuchs, U., Fujita, J., Furget, C., Furini, M., Girard, M Fusco, Gaardhøje, J-J, Gabrielli, A., Gadrat, S., Gagliardi, M., Gago, A., Gaido, L., Torreira, A Gallas, Gallio, M., Gandolfi, E., Ganoti, P., Ganti, M., Garabatos, Jose, Lopez, A Garcia, Garizzo, L., Gaudichet, L., Gemme, R., Germain, M., Gheata, A., Gheata, M., Ghidini, B., Ghosh, P., Giolu, G., Giraudo, G., Giubellino, P., Glasow, R., Glässel, P., Ferreiro, E. G., Gutierrez, C Gonzalez, Gonzales-Trueba, L. H., Gorbunov, S., Gorbunov, Y., Gos, H., Gosset, J., Gotovac, S., Gottschlag, H., Gottschalk, D., Grabski, V., Grassi, T., Gray, H., Grebenyuk, O., Grebieszkow, K., Gregory, C., Grigoras, C., Grion, N., Grigoriev, V., Grigoryan, A., Grigoryan, C., Grigoryan, S., Grishuk, Y., Gros, P., Grosse-Oetringhaus, J., Grossiord, J-Y, Grosso, R., Grynyov, B., Guarnaccia, C., Guber, F., Guerin, F., Guernane, R., Guerzoni, M., Guichard, A., Guida, M., Guilloux, G., Gulkanyan, H., Gulbrandsen, K., Gunji, T., Gupta, A., Gupta, V., Gustafsson, H-A, Gutbrod, H., Hadjidakis, C., Haiduc, M., Hamar, G., Hamagaki, H., Hamblen, J., Hansen, J. C., Hardy, P., Hatzifotiadou, D., Harris, J. W., Hartig, M., Harutyunyan, A., Hayrapetyan, A., Hasch, D., Hasegan, D., Hehner, Jörg, Heine, N., Heinz, M., Helstrup, H., Herghelegiu, A., Herlant, S., Corral, G Herrera, Herrmann, N., Hetland, K., Hille, P., Hinke, H., Hippolyte, B., Hoch, M., Hoebbel, H., Hoedlmoser, H., Horaguchi, T., Horner, M., Hristov, P., Hřivnáčová, I., Hu, S., Guo, C Hu, Humanic, T., Hurtado, A., Hwang, D. S., Ianigro, J. C., Idzik, M., Igolkin, S., Ilkaev, R., Ilkiv, I., Imhoff, M., Innocenti, P. G., Ionescu, E., Ippolitov, M., Irfan, M., Insa, C., Inuzuka, M., Ivan, C., Ivanov, A., Ivanov, Marian, Ivanov, V., Jacobs, P., Jacholkowski, A., Jančurová, L., Janik, R., Jasper, M., Jena, C., Jirden, L., Johnson, D. P., Jones, G. T., Jorgensen, C., Jouve, F., Jovanović, P., Junique, A., Jusko, A., Jung, H., Jung, W., Kadija, K., Kamal, A., Kamermans, R., Kapusta, S., Kaidalov, A., Kakoyan, V., Kalcher, S., Kang, E., Kapitan, J., Kaplin, V., Karadzhev, K., Karavichev, O., Karavicheva, T., Karpechev, E., Karpio, K., Kazantsev, A., Kebschull, U., Keidel, R., Khan, M Mohsin, Khanzadeev, A., Kharlov, Y., Kikola, D., Kileng, B., Kim, D., Kim, D. S., Kim, D. W., Kim, H. N., Kim, J. S., Kim, S., Kinson, J. B., Kiprich, S. K., Kisel, I., Kiselev, S., Kisiel, A., Kiss, T., Kiworra, V., Klay, J., Bösing, C Klein, Kliemant, M., Klimov, A., Klovning, A., Kluge, A., Kluit, R., Kniege, S., Kolevatov, R., Kollegger, T., Kolojvari, A., Kondratiev, V., Kornas, E., Koshurnikov, E., Kotov, I., Kour, R., Kowalski, M., Kox, S., Kozlov, K., Králik, I., Kramer, F., Kraus, I., Kravčáková, A., Krawutschke, T., Krivda, M., Kryshen, E., Kucheriaev, Y., Kugler, A., Kuhn, C., Kuijer, P., Kumar, L., Kumar, N., Kumpumaeki, P., Kurepin, A., Kurepin, A. N., Kushpil, S., Kushpil, V., Kutovsky, M., Kvaerno, H., Kweon, M., Labbé, J-C, Lackner, F., Guevara, P Ladron De, Lafage, V., Rocca, P La, Lamont, M., Lara, C., Larsen, D. T., Laurenti, G., Lazzeroni, C., Bornec, Y Le, Bris, N Le, Gailliard, C Le, Lebedev, V., Lecoq, J., Lee, K. S., Lee, S. C., Lefévre, F., Legrand, I., Lehmann, T., Leistam, L., Lenoir, P., Lenti, V., Leon, H., Monzon, I Leon, Lévai, P., Li, Q., Li, X., Librizzi, F., Lietava, R., Lindegaard, N., Lindenstruth, V., Lippmann, C., Lisa, M., Listratenko, O. M., Littel, F., Liu, Y., Lo, J., Lobanov, V., Loginov, V., Noriega, M López, López-Ramírez, R., Torres, E López, Lorenzo, P. M., Løvhøiden, G., Lu, S., Ludolphs, W., Lunardon, M., Luquin, L., Lusso, S., Lutz, J-R, Luvisetto, M., Lyapin, V., Maevskaya, A., Magureanu, C., Mahajan, A., Majahan, S., Mahmoud, T., Mairani, A., Mahapatra, D., Makarov, A., Makhlyueva, I., Malek, M., Malkiewicz, T., Mal'Kevich, D., Malzacher, Peter, Mamonov, A., Manea, C., Mangotra, L. K., Maniero, D., Manko, V., Manso, F., Manzari, V., Mao, Y., Marcel, A., Marchini, S., Mareš, J., Margagliotti, G. V., Margotti, A., Marin, Ana, Marin, J-C, Marras, D., Martinengo, P., Martínez, M. I., Martinez-Davalos, A., Garcia, G Martínez, Martini, S., Chiesa, A Marzari, Marzocca, C., Masciocchi, Silvia, Masera, M., Masetti, M., Maslov, N. I., Masoni, A., Massera, F., Mast, M., Mastroserio, A., Matthews, Z. L., Mayer, B., Mazza, G., Mazzaro, M. D., Mazzoni, A., Meddi, F., Meleshko, E., Menchaca-Rocha, A., Meneghini, S., Meoni, M., Perez, J Mercado, Mereu, P., Meunier, O., Miake, Y., Michalon, A., Michinelli, R., Miftakhov, N., Mignone, M., Mikhailov, K., Milosevic, J., Minaev, Y., Minafra, F., Mischke, A., Miskowiec, Dariusz, Mitsyn, V., Mitu, C., Mohanty, B., Moisa, D., Molnar, L., Mondal, M., Mondal, N., Zetina, L Montaño, Monteno, M., Morando, M., Morel, M., Moretto, S., Morhardt, Thomas, Morsch, A., Moukhanova, T., Mucchi, M., Muccifora, V., Mudnic, E., Müller, H., Müller, Walter, Munoz, J., Mura, D., Musa, L., Muraz, J. F., Musso, A., Nania, R., Nandi, B., Nappi, E., Navach, F., Navin, S., Nayak, T., Nazarenko, S., Nazarov, G., Nellen, L., Nendaz, F., Nianine, A., Nicassio, M., Nielsen, B. S., Nikolaev, S., Nikolic, V., Nikulin, S., Nikulin, V., Nilsen, B., Nitti, M., Noferini, F., Nomokonov, P., Nooren, G., Noto, F., Nouais, D., Nyiri, A., Nystrand, J., Odyniec, G., Oeschler, H., Oinonen, M., Oldenburg, M., Oleks, I., Olsen, E. K., Onuchin, V., Oppedisano, C., Orsini, F., Ortiz-Velázquez, A., Oskamp, C., Oskarsson, A., Osmic, F., Österman, L., Otterlund, I., Ovrebekk, G., Oyama, K., Pachr, M., Pagano, P., Paić, G., Pajares, C., Pal, S., Pálla, G., Palmeri, A., Pancaldi, G., Panse, R., Pantaleo, A., Pappalardo, G. S., Pastirčák, B., Pastore, C., Patarakin, O., Paticchio, V., Patimo, G., Pavlinov, A., Pawlak, T., Peitzmann, T., Pénichot, Y., Pepato, A., Pereira, H., Peresunko, D., Perez, C., Griffo, J Perez, Perini, D., Perrino, D., Peryt, W., Pesci, A., Peskov, V., Pestov, Y., Peters, A. J., Petráček, V., Petridis, A., Petris, M., Petrov, V., Petrovici, M., Peyré, J., Piano, S., Piccotti, A., Pichot, P., Piemonte, C., Pikna, M., Pilastrini, R., Pillot, P., Pinazza, O., Pini, B., Pinsky, L., Morais, V Pinto, Pismennaya, V., Piuz, F., Platt, R., Ploskon, M., Plumeri, S., Pluta, J., Pocheptsov, T., Podesta, P., Poggio, F., Poghosyan, M., Poghosyan, T., Polák, K., Polichtchouk, B., Polozov, P., Polyakov, V., Pommeresch, B., Pompei, F., Pop, A., Popescu, S., Posa, F., Pospíšil, V., Potukuchi, B., Pouthas, J., Prasad, S., Preghenella, R., Prino, F., Prodan, L., Prono, G., Protsenko, M. A., Pruneau, C. A., Przybyla, A., Pshenichnov, I., Puddu, G., Pujahari, P., Pulvirenti, A., Punin, A., Punin, V., Putschke, J., Quartieri, J., Quercigh, E., Rachevskaya, I., Rachevski, A., Rademakers, A., Radomski, S., Radu, A., Rak, J., Ramello, L., Raniwala, R., Raniwala, S., Rasmussen, O. B., Rasson, J., Razin, V., Read, K., Real, J., Redlich, K., Reichling, C., Renard, C., Renault, G., Renfordt, R., Reolon, A. R., Reshetin, A., Revol, J-P, Reygers, K., Ricaud, H., Riccati, L., Ricci, R. A., Richter, M., Riedler, P., Rigalleau, L. M., Riggi, F., Riegler, W., Rindel, E., Riso, J., Rivetti, A., Rizzi, M., Rizzi, V., Cahuantzi, M Rodriguez, Røed, K., Röhrich, D., Román-López, S., Romanato, M., Romita, R., Ronchetti, F., Rosinsky, P., Rosnet, P., Rossegger, S., Rossi, A., Rostchin, V., Rotondo, F., Roukoutakis, F., Rousseau, S., Roy, C., Roy, D., Roy, P., Royer, L., Rubin, G., Rubio, A., Rui, R., Rusanov, I., Russo, G., Ruuskanen, V., Ryabinkin, E., Rybicki, A., Sadovsky, S., Šafařík, K., Sahoo, R., Saini, J., Saiz, P., Salur, S., Sambyal, S., Samsonov, V., Šándor, L., Sandoval, A., Sann, H., Santiard, J-C, Santo, R., Santoro, R., Sargsyan, G., Saturnini, P., Scapparone, E., Scarlassara, F., Schackert, B., Schiaua, C., Schicker, R., Schioler, T., Schippers, J. D., Schmidt, Christian Alberto, Schmidt, Hans Rudolf, Schneider, R., Schossmaier, K., Schukraft, J., Schutz, Y., Schwarz, Kilian, Schweda, K., Schyns, E., Scioli, G., Scomparin, E., Snow, H., Sedykh, Sergei, Segato, G., Sellitto, S., Semeria, F., Senyukov, S., Seppänen, H., Serci, S., Serkin, L., Serra, S., Sesselmann, T., Sevcenco, A., Sgura, I., Shabratova, G., Shahoyan, R., Sharkov, E., Sharma, S., Shigaki, K., Shileev, K., Shukla, P., Shurygin, A., Shurygina, M., Sibiriak, Y., Siddi, E., Siemiarczuk, T., Sigward, M. H., Silenzi, A., Silvermyr, D., Silvestri, R., Simili, E., Simion, V., Simon, Reinhard, Simonetti, L., Singaraju, R., Singhal, V., Sinha, B., Sinha, T., Siska, M., Sitár, B., Sitta, M., Skaali, B., Skowronski, P., Slodkowski, M., Smirnov, N., Smykov, L., Snellings, R., Snoeys, W., Soegaard, C., Soerensen, J., Sokolov, O., Soldatov, A., Soloviev, A., Soltveit, H., Soltz, R., Sommer, W., Soos, C., Soramel, F., Sorensen, S., Soyk, Daniel, Spyropoulou-Stassinaki, M., Stachel, J., Staley, F., Stan, I., Stavinskiy, A., Steckert, J., Stefanini, G., Stefanek, G., Steinbeck, T., Stelzer, H., Stenlund, E., Stocco, D., Stockmeier, M., Stoicea, G., Stolpovsky, P., Strmeň, P., Stutzmann, J. S., Su, G., Sugitate, T., Šumbera, M., Suire, C., Susa, T., Kumar, K Sushil, Swoboda, D., Symons, J., Szarka, I., Szostak, A., Szuba, M., Szymanski, P., Tadel, M., Tagridis, C., Tan, L., Takaki, D Tapia, Taureg, H., Tauro, A., Tavlet, M., Munoz, G Tejeda, Thäder, J., Tieulent, R., Timmer, P., Tolyhy, T., Topilskaya, N., Matos, C Torcato De, Torii, H., Toscano, L., Tosello, F., Tournaire, A., Traczyk, T., Tröger, G., Tromeur, W., Truesdale, D., Trzaska, W., Tsiledakis, G., Tsilis, E., Tsvetkov, A., Turcato, M., Turrisi, R., Tuveri, M., Tveter, T., Tydesjo, H., Tykarski, L., Tywoniuk, K., Ugolini, E., Ullaland, K., Urbán, J., Urciuoli, G. M., Usai, G. L., Usseglio, M., Vacchi, A., Vala, M., Valiev, F., Vyvre, P Vande, Brink, A Van Den, Eijndhoven, N Van, Kolk, N Van Der, Leeuwen, M Van, Vannucci, L., Vanzetto, S., Vanuxem, J-P, Vargas, M. A., Varma, R., Vascotto, A., Vasiliev, A., Vassiliou, M., Vasta, P., Vechernin, V., Venaruzzo, M., Vercellin, E., Vergara, S., Verhoeven, W., Veronese, F., Vetlitskiy, I., Vernet, R., Victorov, V., Vidak, L., Viesti, G., Vikhlyantsev, O., Vilakazi, Z., Baillie, O Villalobos, Vinogradov, A., Vinogradov, L., Vinogradov, Y., Virgili, T., Viyogi, Y., Vodopianov, A., Volpe, G., Vranic, D., Vrláková, J., Vulpescu, B., Wabnitz, C., Wagner, V., Wallet, L., Wan, R., Wang, Y., Wheadon, R., Weis, R., Wen, Q., Wessels, J., Westergaard, J., Wiechula, Jens, Wiesenaecker, A., Wikne, J., Wilk, A., Wilk, G., Williams, C., Willis, N., Windelband, B., Witt, R., Woehri, H., Wyllie, K., Xu, C., Yang, C., Yang, H., Yermia, F., Yin, Z., Ky, B Yun, Yushmanov, I., Yuting, B., Zabrodin, E., Zagato, S., Zagreev, B., Zaharia, P., Zalite, A., Zampa, G., Zampolli, C., Zanevskiy, Y., Zarochentsev, A., Zaudtke, O., Závada, P., Zbroszczyk, H., Zepeda, A., Zeter, V., Zgura, I., Zhalov, M., Zhou, D., Zhou, S., Zhu, G., Zichichi, A., Zinchenko, A., Zinovjev, G., Zoccarato, Y., Zubarev, A., Zucchini, A., Zuffa, M., Collaboration, Alice, Laboratoire SUBATECH Nantes (SUBATECH), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Nantes (UN)-Mines Nantes (Mines Nantes), Institut Pluridisciplinaire Hubert Curien (IPHC), Université Louis Pasteur - Strasbourg I-Centre National de la Recherche Scientifique (CNRS), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Laboratoire de Physique Corpusculaire - Clermont-Ferrand (LPC), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Subatomique et de Cosmologie (LPSC), Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS), Institut de Physique Nucléaire d'Orsay (IPNO), Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11), Institut de Physique Nucléaire de Lyon (IPNL), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), ALICE, Institut de Physique des 2 Infinis de Lyon (IP2I Lyon), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), V., Bonvicini, O., Borysov, L., Bosisio, M., Bregant, Camerini, Paolo, E., Cataruzza, Contin, Giacomo, E., Fragiacomo, N., Grion, Margagliotti, Giacomo, S., Piano, C., Piemonte, I., Rachevskaya, A., Rachevski, Rossi, Andrea, Rui, Rinaldo, A., Vacchi, M., Venaruzzo, G., Zampa, AL ALICE COLLABORATION, E. T., Mines Nantes (Mines Nantes)-Université de Nantes (UN)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Université de Lyon-Université de Lyon-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), K. 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TRZASKA, G. TSILEDAKIS, E. TSILIS, A. TSVETKOV, M. TURCATO, R. TURRISI, M. TUVERI, T. TVETER, H. TYDESJO, L. TYKARSKI, K. TYWONIUK, E. UGOLINI, K. ULLALAND, J. URBÁN, G.M. URCIUOLI, G.L. USAI, M. USSEGLIO, A. VACCHI, M. VALA, F. VALIEV, P. VANDE VYVRE, A. VAN DEN BRINK, N. VAN EIJNDHOVEN, N. VAN DER KOLK, M. VAN LEEUWEN, L. VANNUCCI, S. VANZETTO, J.-P. VANUXEM, M.A. VARGAS, R. VARMA, A. VASCOTTO, A. VASILIEV, M. VASSILIOU, P. VASTA, V. VECHERNIN, M. VENARUZZO, E. VERCELLIN, S. VERGARA, W. VERHOEVEN, F. VERONESE, I. VETLITSKIY, R. VERNET, V. VICTOROV, L. VIDAK, G. VIESTI, O. VIKHLYANTSEV, Z. VILAKAZI, O. VILLALOBOS BAILLIE, A. VINOGRADOV, L. VINOGRADOV, Y. VINOGRADOV, T. VIRGILI, Y. VIYOGI, A. VODOPIANOV, G. VOLPE, D. VRANIC, J. VRLÁKOVÁ, B. VULPESCU, C.WABNITZ, V. WAGNER, L.WALLET, R.WAN, Y.WANG, R. WHEADON, R.WEIS, Q. WEN, J. WESSELS, J. WESTERGAARD, J.WIECHULA, A.WIESENAECKER, J.WIKNE, A. WILK, G. WILK, C. WILLIAMS, N.WILLIS, B.WINDELBAND, R.WITT, H. WOEHRI, K. WYLLIE, C. XU, C. YANG, H. YANG, F. YERMIA, Z. YIN, B. YUN KY, I. YUSHMANOV, B. YUTING, E. ZABRODIN, S. ZAGATO, B. ZAGREEV, P. ZAHARIA, A. ZALITE, G. ZAMPA, C. ZAMPOLLI, Y. ZANEVSKIY, A. ZAROCHENTSEV, O. ZAUDTKE, P. ZÁVADA, H. ZBROSZCZYK, A. ZEPEDA, V. ZETER, I. ZGURA, M. ZHALOV, D. ZHOU, S. ZHOU, G. ZHU, A. ZICHICHI, A. ZINCHENKO, G. ZINOVJEV, Y. ZOCCARATO, A. ZUBAREV, A. ZUCCHINI, AND M. ZUFFA., and Université Joseph Fourier - Grenoble 1 (UJF)-Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes (UGA)

Subjects

visible and IR photons, Liquid detectors, high energy, Photon, Physics::Instrumentation and Detectors, Transition radiation detectors, Timing detectors, 01 natural sciences, Overall mechanics design, Particle identification, Software architectures, Particle identification methods, Gaseous detectors, cluster finding, Detector cooling and thermo-stabilization, Detector grounding, Particle tracking detectors, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Special cables, Detector alignment and calibration methods, Detectors and Experimental Techniques, Nuclear Experiment, Voltage distributions, Photon detectors for UV, Instrumentation, Mathematical Physics, Quantum chromodynamics, Physics, Large Hadron Collider, Spectrometers, Detector, calibration and fitting methods, Transition radiation detector, Scintillators, Data processing methods, Analysis and statistical methods, Data reduction methods, Particle physics, Cherenkov and transition radiation, Time projection chambers, dE/dx detectors, Nuclear physics, Calorimeters, Pattern recognition, Gamma detectors, 0103 physical sciences, ddc:610, Solid state detectors, 010306 general physics, Muon, Instrumentation for heavy-ion accelerators, Spectrometer, Large detector systems for particle and astroparticle physics, 010308 nuclear & particles physics, CERN, LHC, ALICE, heavy ion, QGP, Cherenkov detectors, Computing, Manufacturing, scintillation and light emission processes, analysis and statistical methods, calorimeters, cherenkov and transition radiation, cherenkov detectors, computing, data processing methods, data reduction methods, de/dx detectors, detector alignment and calibration methods, detector cooling and thermo-stabilization, detector design and construction technologies and materials, detector grounding, gamma detectors, gaseous detectors, instrumentation for heavy-ion accelerators, instrumentation for particle accelerators and storage rings - high energy, large detector systems for particle and astroparticle physics, liquid detectors, manufacturing, overall mechanics design, particle identification methods, particle tracking detectors, pattern recognition, photon detectors for uv, visible and ir photons, scintillators, simulation methods and programs, software architectures, solid state detectors, special cables, spectrometers, time projection chambers, timing detectors, transition radiation detectors, voltage distributions, Instrumentation for particle accelerators and storage rings, High Energy Physics::Experiment, Simulation methods and programs, Detector design and construction technologies and materials

Abstract

Journal of Instrumentation 3(08), S08002 (2008). doi:10.1088/1748-0221/3/08/S08002, Published by Inst. of Physics, London

Published

2008

25. Observation of Rayleigh-Lamb waves generated by the 2022 Hunga-Tonga volcanic eruption with the POLA detectors at Ny-Ålesund.

Author

Abbrescia M, Avanzini C, Baldini L, Ferroli RB, Batignani G, Battaglieri M, Boi S, Bossini E, Carnesecchi F, Casula M, Cavazza D, Cicalò C, Cifarelli L, Coccetti F, Coccia E, Corvaglia A, Gruttola D, Pasquale S, Galante L, Garbini M, Gemme G, Gnesi I, Gramstad E, Grazzi S, Haland ES, Hatzifotiadou D, Rocca P, Liu Z, Lombardo L, Mandaglio G, Margotti A, Maron G, Mazziotta MN, Mazzola M, Mulliri A, Nania R, Noferini F, Nozzoli F, Ould-Saada F, Palmonari F, Panareo M, Panetta MP, Paoletti R, Parvis M, Pellegrino C, Perasso L, Pinazza O, Pinto C, Pisano S, Riggi F, Righini G, Ripoli C, Rizzi M, Sartorelli G, Scapparone E, Schioppa M, Scioli G, Scribano A, Selvi M, Taiuti M, Terreni G, Trifirò A, Trimarchi M, Viola AP, Vistoli C, Votano L, Williams MCS, Zichichi A, and Zuyeuski R

Abstract

The eruption of the Hunga-Tonga volcano in the South Pacific Ocean on January 15, 2022, at about 4:15 UTC, generated a violent explosion, which created atmospheric pressure disturbances in the form of Rayleigh-Lamb waves detected all over the globe. Here we discuss the observation of the Hunga-Tonga shock-wave performed at the Ny-Ålesund Research Station on the Spitsbergen island, by the detectors of the PolarquEEEst experiment and their ancillary sensors. Online pressure data as well as the results of dedicated offline analysis are presented and discussed in details. Results include wave arrival times, wave amplitude measurements and wave velocity calculation. We observed five passages of the shock wave with a significance larger than 3 [Formula: see text] and an amplitude up to 1 hPa. The average propagation velocity resulted to be (308 ± 0.6) m/s. Possible effects of the atmospheric pressure variation associated with the shock-wave multiple passages on the cosmic-ray rate at ground level are also investigated. We did not find any significant evidence of this effect., (© 2022. The Author(s).)

Published

2022