Search Results - "Olmedo, A. Barrado"

An Analytical Method to Determine Selected Nitro-PAHs in Soil Samples by HPLC With Fluorescence Detection by GARCÍA-ALONSO, S., BARRADO-OLMEDO, A. I., PÉREZ-PASTOR, R. M.

“…A simple analytical procedure was optimized for the analysis of selected nitro polycyclic aromatic hydrocarbons in soil samples. The procedure involved the…”
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SiPM-matrix readout of two-phase argon detectors using electroluminescence in the visible and near infrared range by Aalseth, C. E., Abdelhakim, S., Agnes, P., Alici, A., Ameli, F., Arcelli, S., Arnquist, I. J., Asner, D. M., Asunskis, A., Back, H. O., Bocci, V., Bottino, B., Boulay, M. G., Bunker, R., Bussino, S., Caminata, A., Canci, N., Cantini, C., Caravati, M., Cela Ruiz, J. M., Cheng, W., Coccetti, F., Cocco, V., Colocci, M., Conde Vilda, E., Consiglio, L., Cossio, F., Covone, G., Davini, S., De Guido, G., Dellacasa, G., De Pasquale, S., Di Noto, L., Downing, M., Franceschi, A., Franco, D., Galbiati, C., Garbini, M., Gendotti, A., Giampaolo, R. A., Grate, J. W., Guan, M., Guerzoni, M., Gulino, M., Hackett, B. R., Harrop, B., Ianni, An, Kendziora, C. L., Kochanek, I., Korablev, D., Lebois, M., Liqiang, Q., Luzzi, L., Machado, A. A., Machulin, I. N., Mandarano, A., Manecki, S., Margotti, A., Maricic, J., Marinelli, M., Marras, D., Mason, J., Masoni, A., McDonald, A. B., Messina, A., Moggi, A., Mroz, T., Navrer Agasson, A., Nosov, V., Oleinik, A., Paoloni, E., Pellegrino, C., Perotti, F., Pocar, A., Pollmann, T. R., Portaluppi, D., Poudel, S. S., Rescigno, M., Rignanese, L. P., Ripoli, C., Rivetti, A., Rode, J., Sánchez García, E., Sanfilippo, S., Sant, M., Semenov, D. A., Shchagin, A., Simeone, M., Strickland, V., Suffritti, G. B., Testera, G., Vázquez-Jáuregui, E., Villa, F., Vishneva, A., Vogelaar, R. B., Wahl, J., Wheadon, R. J., Wojcik, Ma. M., Xiao, X., Zuffa, M.

“…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…”
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Constraints on directionality effect of nuclear recoils in a liquid argon time projection chamber by Agnes, P., Ahmad, I., Albergo, S., Albuquerque, I. F. M., Alexander, T., Alton, A. K., Amaudruz, P., Corona, M. Atzori, Ave, M., Avetisov, I. Ch, Azzolini, O., Back, H. O., Balmforth, Z., Barrado-Olmedo, A., Barrillon, P., Basco, A., Batignani, G., Bocci, V., Bonivento, W. M., Bottino, B., Boulay, M. G., Busto, J., Cadeddu, M., Caminata, A., Canci, N., Cappello, G., Capra, A., Caprioli, S., Caravati, M., Cargioli, N., Carlini, M., Castello, P., Cataudella, V., Cavalcante, P., Cavuoti, S., Cebrian, S., Ruiz, J. M. Cela, Chashin, S., Chepurnov, A., Chyhyrynets, E., Cifarelli, L., Cintas, D., Citterio, M., Cleveland, B., Cocco, V., Vilda, E. Conde, Consiglio, L., Copello, S., Covone, G., Czubak, M., D’Aniello, M., D’Auria, S., Da Rocha Rolo, M. D., Davini, S., de Candia, A., De Cecco, S., De Gruttola, D., De Filippis, G., Dell’Aquila, D., De Pasquale, S., De Rosa, G., Dellacasa, G., Derbin, A. V., Devoto, A., Capua, F. Di, Noto, L. Di, Dionisi, C., Stefano, P. Di, Dolganov, G., Dordei, F., Elersich, A., Ellingwood, E., Erjavec, T., Diaz, M. Fernandez, Fiorillo, G., Franchini, P., Franco, D., Funicello, N., Gabriele, F., Gahan, D., Galbiati, C., Gallina, G., Gallus, G., Garbini, M., Abia, P. Garcia, Gendotti, A., Ghiano, C., Giganti, C., Giovanetti, G. K., Casanueva, V. Goicoechea, Gola, A., Grauso, G., Cortona, G. Grilli di, Grobov, A., Gromov, M., Guan, M., Guerzoni, M., Gulino, M., Guo, C., Hackett, B. R.

“…The direct search for dark matter in the form of weakly interacting massive particles (WIMP) is performed by detecting nuclear recoils produced in a target…”
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Separating $${^{39}\hbox {Ar}}$$ 39 Ar from $${^{40}\hbox {Ar}}$$ 40 Ar by cryogenic distillation with Aria for dark-matter searches by P. Agnes, S. Albergo, I. F. M. Albuquerque, T. Alexander, A. Alici, A. K. Alton, P. Amaudruz, M. Arba, P. Arpaia, S. Arcelli, M. Ave, I. Ch. Avetissov, R. I. Avetisov, O. Azzolini, H. O. Back, Z. Balmforth, V. Barbarian, A. Barrado Olmedo, P. Barrillon, A. Basco, G. Batignani, A. Bondar, W. M. Bonivento, E. Borisova, B. Bottino, M. G. Boulay, G. Buccino, S. Bussino, J. Busto, A. Buzulutskov, M. Cadeddu, M. Cadoni, A. Caminata, E. V. Canesi, N. Canci, G. Cappello, M. Caravati, M. Cárdenas-Montes, N. Cargioli, M. Carlini, F. Carnesecchi, P. Castello, A. Castellani, S. Catalanotti, V. Cataudella, P. Cavalcante, S. Cavuoti, S. Cebrian, J. M. Cela Ruiz, B. Celano, S. Chashin, A. Chepurnov, C. Cicalò, L. Cifarelli, D. Cintas, F. Coccetti, V. Cocco, M. Colocci, E. Conde Vilda, L. Consiglio, S. Copello, J. Corning, G. Covone, P. Czudak, M. D’Aniello, S. D’Auria, M. D. Da Rocha Rolo, O. Dadoun, M. Daniel, S. Davini, A. De Candia, S. De Cecco, A. De Falco, G. De Filippis, D. De Gruttola, G. De Guido, G. De Rosa, M. Della Valle, G. Dellacasa, S. De Pasquale, A. V. Derbin, A. Devoto, L. Di Noto, F. Di Eusanio, C. Dionisi, P. Di Stefano, G. Dolganov, D. Dongiovanni, F. Dordei, M. Downing, T. Erjavec, S. Falciano, S. Farenzena, M. Fernandez Diaz, C. Filip, G. Fiorillo, A. Franceschi, D. Franco, E. Frolov, N. Funicello

“…Abstract Aria is a plant hosting a $${350}\,\hbox {m}$$ 350 m cryogenic isotopic distillation column, the tallest ever built, which is being installed in a…”
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Separating [Formula omitted] from [Formula omitted] by cryogenic distillation with Aria for dark-matter searches by Agnes, P, Albergo, S, Albuquerque, I. F. M, Alexander, T, Alici, A, Alton, A. K, Amaudruz, P

“…Aria is a plant hosting a [Formula omitted] cryogenic isotopic distillation column, the tallest ever built, which is being installed in a mine shaft at…”
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Benchmarking the design of the cryogenics system for the underground argon in DarkSide-20k by Agnes, P, Ahmad, I, Alexander, T, Alton, A. K, Ave, M, Azzolini, O, Olmedo, A. Barrado, Batignani, G, Bonivento, W, Boulay, M. G, Bussino, S, Busto, J, Cadeddu, M, Cadoni, M, Camillo, V, Caminata, A, Caravati, M, Cárdenas-Montes, M, Cargioli, N, Castellani, A, Castello, P, Chashin, S, Chepurnov, A, Cintas, D, Cleveland, B, Coadou, Y, Costa, B. S, Czubak, M, D'Aniello, M, Darbo, G, Dellacasa, G, Derbin, A. V, Mairena, D. Díaz, Ding, X, Dronik, V, Erjavec, T, Ficorella, A, Franchini, P, Franco, D, Gatti, H. Frandini, Galbiati, C, Gallina, G, Abia, P. Garcia, Gawdzik, A, Ghisi, A, Gromov, M, Guerzoni, M, Hackett, B. R, Hungerford, E. V, Ippolito, V, Jamil, A, Kachru, P, Kondo, K, Kuss, M, Lissia, M, Macfadyen, O, McDonald, A. B, Monroe, J, Mroz, T, Nessi, M, Nieradka, G, Nowak, J, Olchanski, K, Oleinik, A, Oleynikov, V, Paternoster, G, Pelczar, K, Piacentini, S. I, Pralavorio, P, Ragusa, F, Ravinthiran, S, Razeti, M, Renshaw, A. L, Retiere, F, Rivetti, A, Roberts, C, Romero, L, Rubbia, A, Rudik, D, Sabia, M, Samoylov, O, Santone, D, Schillaci, G, Semenov, D. A, Sheshukov, A, Smirnova, T, Spadoni, F, Sulis, S, Suvorov, Y, Tedesco, S, Thorpe, T. N, Vallivilayil, T. J, Viant, T, Vossebeld, J, Wada, M, Wang, H, Westerdale, S, Zhang, Y, Zuzel, G, Zykova, M. P

“…DarkSide-20k (DS-20k) is a dark matter detection experiment under construction at the Laboratori Nazionali del Gran Sasso (LNGS) in Italy. It utilises ~100 t…”
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DarkSide-20k sensitivity to light dark matter particles by Agnes, P, Ahmad, I, Alexander, T, Alton, A. K, Ave, M, Azzolini, O, Batignani, G, Bonivento, W, Boulay, M. G, Bussino, S, Busto, J, Cadeddu, M, Cadoni, M, Camillo, V, Caminata, A, Caravati, M, Cárdenas-Montes, M, Cargioli, N, Castellani, A, Castello, P, Chashin, S, Chepurnov, A, Cintas, D, Cleveland, B, Coadou, Y, Costa, B. S, Czubak, M, D'Aniello, M, Darbo, G, Dellacasa, G, Derbin, A. V, Mairena, D. Díaz, Ding, X, Dronik, V, Erjavec, T, Ficorella, A, Franchini, P, Franco, D, Gatti, H. Frandini, Galbiati, C, Gallina, G, Abia, P. Garcia, Gawdzik, A, Ghisi, A, Gromov, M, Guerzoni, M, Hackett, B. R, Hungerford, E. V, Ippolito, V, Jamil, A, Kachru, P, Kotsiopoulou, L, Leason, E, Lidey, L, Lissia, M, Luzzi, L, Macfadyen, O, Mariani, C, Martinez, M, Mavrokoridis, K, Mclaughlin, J, Merzi, S, Messina, A, Moioli, S, Moretti, E, Musico, P, Nessi, M, Nikolopoulos, K, de Solórzano, A. Ortiz, Pallavicini, M, Pantic, E, Papi, D, Pegoraro, P. A, Pelczar, K, Pesudo, V, Poehlmann, M, Pralavorio, P, Price, D, Puglia, S, Bazetto, M. Queiroga, Ramachers, Y, Rignanese, L. P, Rivetti, A, Santos, E. M, SchuckmanII, F. G, Skensved, P, Spangenberg, M, Stefanizzi, R, Steri, A, Sunny, C, Szelc, A. M, Tartaglia, R, Testera, G, Tricomi, A, Velazquez-Fernandez, L, Vishneva, A, Vogelaar, R. B, Yin, J, Zhang, Y, Zichichi, A

“…The dual-phase liquid argon time projection chamber is presently one of the leading technologies to search for dark matter particles with masses below 10…”
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A new hybrid gadolinium nanoparticles-loaded polymeric material for neutron detection in rare event searches by Agnes, P, Ahmad, I, Albuquerque, I. F, Alexander, T, Alton, A. K, Ave, M, Azzolini, O, Olmedo, A. Barrado, Batignani, G, Bonivento, W, Bottino, B, Boulay, M. G, Bussino, S, Caminata, A, Cárdenas-Montes, M, Cargioli, N, Carlini, M, Castello, P, Chashin, S, Chepurnov, A, Cintas, D, Cleveland, B, Coadou, Y, Consiglio, L, Costa, B. S, Czubak, M, Darbo, G, De Cecco, S, Dellacasa, G, Derbin, A. V, Dolganov, G, Franchini, P, Gatti, H. Frandini, Gallina, G, Garbini, M, Abia, P. Garcia, Gendotti, A, Giovanetti, G. K, Casanueva, V. Goicoechea, di Cortona, G. Grilli, Hamer, A, Haranczyk, M, Hugues, T, Ianni, A, Jillings, C, Kemmerich, N, Kendziora, C. L, Kuss, M, Lissia, M, Luzzi, L, Macfadyen, O, Mariani, C, Matteucci, G, Minutoli, S, Monroe, J, Muratova, V. N, Nowak, J, Olchanski, K, Oleinik, A, Oleynikov, V, Organtini, P, Piacentini, S. I, Plante, G, Pocar, A, Ramirez, A, Ravinthiran, S, Razeti, M, Renshaw, A. L, Roberts, A, Roberts, C, Rogers, G, Romero, L, Sadashivajois, S, Salomone, P, Santone, D, Santorelli, R, Scioli, G, Skorokhvatov, M. D, Sotnikov, A, Stornelli, V, Stracka, S, Sulis, S, Sung, A, Sunny, C, Taborda, O, Taylor, A, Taylor, J, Tedesco, S, Thieme, K, Thompson, A, Tonazzo, A, Tosi, S, Vishneva, A, Vogelaar, R. B, Wojaczynski, R, Wojcik, M, Yin, J, Zabihi, A, Zichichi, A, Zuzel, G

“…JINST 19 P09021 (2024) Experiments aimed at direct searches for WIMP dark matter require highly effective reduction of backgrounds and control of any residual…”
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Directionality of nuclear recoils in a liquid argon time projection chamber by Collaboration, The DarkSide-20k, Ahmad, I, Albuquerque, I. F. M, Ave, M, Avetisov, I. Ch, Batignani, G, Bonivento, W. M, Bottino, B, Boulay, M. G, Caravati, M, Castello, P, Ruiz, J. M. Cela, Citterio, M, Cocco, V, Copello, S, Covone, G, Czubak, M, D'Auria, S, Rolo, M. D. Da Rocha, de Candia, A, De Filippis, G, Dell'Aquila, D, De Rosa, G, Dellacasa, G, Derbin, A. V, Dionisi, C, Dordei, F, Elersich, A, Erjavec, T, Franchini, P, Franco, D, Funicello, N, Gahan, D, Gallus, G, Garbini, M, Casanueva, V. Goicoechea, di Cortona, G. Grilli, Gromov, M, Guan, M, Guerzoni, M, Guo, C, Hallin, A. L, Hamer, A, Haranczyk, M, Hill, S, Kemmerich, N, Kochanek, I, Koulosousas, S, La Commara, M, Leoni, A, Lychagina, O, Manecki, S, Marini, A, Matteucci, G, Milincic, R, Muratova, V. N, Nania, R, Nikolopoulos, K, Olchansky, K, Oleynikov, V, Organtini, P, de Solórzano, A. Ortiz, Pagani, L, Pallavicini, M, Pandola, L, Paternoster, G, Pelczar, K, Pino, N, Pocar, A, Pordes, S, Ramachers, Y, Rescigno, M, Rignanese, L. P, Rivetti, A, Roberts, C, Romero, L, Rossi, M, Sandford, E, Sanfilippo, S, Santorelli, R, Savarese, C, SchuckmanII, F. G, Scioli, G, Skorokhvatov, M. D, Smith, B, Stringer, M, Sulis, S, Sung, A, Szelc, A. M, Taylor, A, John, T. Vallivilayil, Viant, T, Vossebeld, J, Wang, H, Wright, T, Xie, Y, Yang, C, Zabihi, A, Zichichi, A, Zykova, M. P

“…Eur. Phys. J. C 84:24 (2024) The direct search for dark matter in the form of weakly interacting massive particles (WIMP) is performed by detecting nuclear…”
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Sensitivity projections for a dual-phase argon TPC optimized for light dark matter searches through the ionization channel by Alexander, T, Alton, A. K, Ave, M, Barbarian, V, Olmedo, A. Barrado, Barrillon, P, Basco, A, Bondar, A, Bonivento, W. M, Caminata, A, Cifarelli, L, Cocco, V, Copello, S, Cross, S, D'Auria, S, Rolo, M. D. Da Rocha, Dadoun, O, De Cecco, S, De Falco, A, De Gruttola, D, De Pasquale, S, Dolganov, G, Diaz, M. Fernandez, Franceschi, A, Frolov, E, Gahan, D, Gendotti, A, Giampaolo, R. A, Giganti, C, Giovanetti, G. K, Casanueva, V. Goicoechea, Diaz, R. Graciani, di Cortona, G. Grilli, Guan, M, Guerzoni, M, Hackett, B. R, Hill, S, Horikawa, S, Hungerford, E. V, Jillings, C, Kemp, A. A, Kendziora, C. L, Khomyakov, A. V, Kimura, M, Korga, G, Kubankin, A, Kuss, M, Kuźniak, M, Li, X, Lipp, J, Lissia, M, Mariani, C, Martínez, M, Masoni, A, Mazzi, A, Moggi, A, Morrocchi, M, Mozhevitina, E. N, Mróz, T, Musico, P, Napolitano, T, Nikolopoulos, K, Olchansky, K, Pandola, L, Paoloni, E, Paternoster, G, Pelczar, K, Pesudo, V, Piacentini, S, Pocar, A, Pordes, S, Ramachers, Y, Razeti, M, Renshaw, A. L, Retiere, F, Ripoli, C, Roberts, A, Sadashivajois, S, Santone, D, Santorelli, R, Savarese, C, Simeone, M, Skensved, P, Stefanizzi, R, Stringer, M, Türkoğ, C, Tartaglia, R, Taylor, A, Taylor, J, Torres-Lara, S, Tricomi, A, Vogelaar, R. B, Vossebeld, J, Walczak, M. B, Wang, Y, Westerdale, S, Wheadon, R. J, Xie, Y, Yang, C, Zuzel, G

“…Phys. Rev. D 107, 112006 (2023) Dark matter lighter than 10 GeV/c$^2$ encompasses a promising range of candidates. A conceptual design for a new detector,…”
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Measurement of the Argon Purity by ICP-MS and Results of the Analysis of the Gas Used for the MicroBooNE Experiment by Santorelli, R, Olmedo, A. I. Barrado, Vilda, E. Conde, Diaz, M. Fernandez, Pesudo, V, Romero, L

“…Measuring the argon purity is critical for all Ar-based rare event research experiments. Mass spectrometry is typically used to assess the uranium and thorium…”
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SiPM-matrix readout of two-phase argon detectors using electroluminescence in the visible and near infrared range by Ajaj, R, Albuquerque, I. F. M, Ameli, F, Anstey, J, Ardito, R, Arpaia, P, Asner, D. M, Batignani, G, Bisogni, M. G, Bondar, A, Buzulutskov, A, Cantini, C, Carnesecchi, F, Chashin, S, Cheng, W, Cicalò, C, Coccetti, F, Cossio, F, Covone, G, D'Incecco, M, Davini, S, De Cecco, S, De Guido, G, Dellacasa, G, Demontis, P, De Pasquale, S, Devoto, A, Di Noto, L, Dolganov, G, Diaz, M. Fernandez, Filip, C, Fiorillo, G, Froudakis, G. E, Gabriele, F, Galbiati, C, Garbini, M, Fora, D. Gascón, Ghiano, C, Gligan, M. L, Grobov, A, Gulino, M, Hallin, A, Humble, P, Ilyasov, A, Korga, G, Kubankin, A, Liqiang, Q, Margotti, A, Martínez, M, Moggi, A, Moioli, S, Muratova, V. N, Musico, P, Agasson, A. Navrer, Nikulin, I, Orsini, M, Pagani, L, Pallavicini, M, Pantic, E, Pazzona, F, Pegoraro, P. A, Pellegrini, L. A, Pellegrino, C, Pelliccia, N, Perotti, F, Pesudo, V, Picciau, E, Pietropaolo, F, Portaluppi, D, Radics, B, Raffaelli, F, Regenfus, C, Rignanese, L. P, Rivetti, A, Rode, J, Samoylov, O, García, E. Sánchez, Sandford, E, Sanfilippo, S, Sant, M, Scapparone, E, Scioli, G, Segreto, E, Sheshukov, A, Sotnikov, A, Steri, A, Suffritti, G. B, Sulis, S, Szelc, A. M, Testera, G, Thorpe, T, Tosi, A, Tuveri, M, Unzhakov, E. V, Wahl, J, Walding, J. J, Wojcik, Ma, Xiao, X, Ye, Z, Zuzel, G

“…Eur. Phys. J. C (2021) 81: 153 Proportional electroluminescence (EL) in noble gases is used in two-phase detectors for dark matter searches to record (in the…”
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Separating $^{39}$Ar from $^{40}$Ar by cryogenic distillation with Aria for dark matter searches by Alexander, T, Alici, A, Alton, A. K, Arba, M, Arcelli, S, Avetissov, I. Ch, Barbarian, V, Barrillon, P, Bondar, A, Buccino, G, Canci, N, Cappello, G, C, M, Cical, C, Copello, S, Corning, J, D'Auria, S, Rolo, M. D. Da Rocha, De Falco, A, Della Valle, M, Derbin, A. V, Di Noto, L, Dionisi, C, Dordei, F, Erjavec, T, Falciano, S, Frolov, E, Funicello, N, Gabriele, F, Galbiati, C, Abia, P. Garcia, Gendotti, A, Giganti, C, Grigoriev, G. Y, Grobov, A, Guo, C, Hallin, A, Hill, S, Horikawa, S, Hubaut, F, Hugues, T, Hungerford, E. V, Ianni, An, Jillings, C, Kemp, A. A, Khomyakov, A. V, Korga, G, Kubankin, A, Kuźniak, M, Lai, M, Lami, N, Leyton, M, Lidey, L, Lissia, M, Longo, G, Maccioni, N, Margotti, A, Mari, S. M, Maricic, J, Mart, M, Masetto, M, Milincic, R, Moharana, A, Moioli, S, Morrocchi, M, Musico, P, Agasson, A. Navrer, Nikulin, I, Nowak, J, Pandola, L, Paternoster, G, Picciau, E, Renshaw, A. L, Rescia, S, Rode, J, Romero, L, Rubbia, A, Rucaj, M, Samoylov, O, Scapparone, E, Scioli, G, Semenov, D. A, Shaw, B, Shchagin, A, Skensved, P, Smirnov, O, Sokolov, A, Stringer, M, Suvorov, Y, Tartaglia, R, Thorpe, T. N, Tuveri, M, John, T. Vallivilayil, Vescovi, S, Vishneva, A, Wada, M, Wang, H, Wang, Y, Westerdale, S, Wheadon, R. J

“…Eur.Phys.J.C 81 (2021) 4, 359 The Aria project consists of a plant, hosting a 350 m cryogenic isotopic distillation column, the tallest ever built, which is…”
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Sensitivity of future liquid argon dark matter search experiments to core-collapse supernova neutrinos by Alton, A. K, Avetisov, R. I, Balmforth, Z, Olmedo, A. Barrado, Batignani, G, Bonivento, W. M, Bottino, B, Boulay, M. G, Bussino, S, Busto, J, Buzulutskov, A, Cadeddu, M, Cárdenas-Montes, M, Carlini, M, Cavuoti, S, Celano, B, Cocco, V, Consiglio, L, Copello, S, Corning, J, Czudak, P, D'Auria, S, Rolo, M. D. Da Rocha, Dadoun, O, De Cecco, S, De Falco, A, De Gruttola, D, Derbin, A. V, Di Noto, L, Downing, M, Fiorillo, G, Frolov, E, Funicello, N, Gabriele, F, Garbini, M, Giorgi, M. A, Casanueva, V. Goicoechea, Grigoriev, G. Y, Khomyakov, A. V, Korga, G, Kuss, M, Kuźniak, M, Langrock, S, Li, X, Lidey, L, Lissia, M, Machulin, I. N, Mapelli, L, Maricic, J, Martínez, M, Martoff, C. J, Masoni, A, Mazzi, A, Mclaughlin, J, Meyers, P. D, Milincic, R, Morisi, S, Morrocchi, M, Mozhevitina, E. N, Mróz, T, Muscas, C, Musenich, L, Musico, P, Nania, R, Nessi, M, Oleynikov, V, Pantic, E, Pegoraro, P. A, Pellegrini, L. A, Pietropaolo, F, Pocar, A, Pralavorio, P, Ramirez, A, Razeto, A, Rescia, S, Rescigno, M, Rignanese, L. P, Rivetti, A, Samoylov, O, Sandford, E, Santone, D, Santorelli, R, Savarese, C, Scapparone, E, Scioli, G, Shaw, B, Smirnov, O, Smith, B, Stracka, S, Strickland, V, Stringer, M, Testera, G, Tonazzo, A, Torres-Lara, S, Viant, T, Vishneva, A, Wheadon, R. J, Wojcik, Ma. M, Yang, C, Zuzel, G

“…JCAP 03 (2021) 043 Future liquid-argon DarkSide-20k and ARGO detectors, designed for direct dark matter search, will be sensitive also to core-collapse…”
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