Your search keyword '"C. Riccobene"' showing total 29 results

1. P931: PROSPECTIVE OBSERVATIONAL MULTICENTER STUDY OF GAUCHER DISEASE PREVALENCE IN PATIENTS AFFECTED BY MONOCLONAL GAMMOPATHY OF UNDETERMINED SIGNIFICANCE

Author

G. Giuffrida, U. Markovic, C. Conticello, D. Nicolosi, V. Calafiore, A. Romano, A. Condorelli, S. Grasso, A. Duminuco, M. Calagna, A. Nardo, C. Riccobene, B. Esposito, U. Consoli, V. Di Giacomo, S. Neri, M. R. Cingari, G. Iaria, V. Innao, M. Spina, J. Gentile, C. Zizzo, G. Duro, and F. Di Raimondo

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2022

2. Physicochemical and functional properties of canaryseed ( Phalaris canariensis L.) with and without spicules flour

Author

Luis I. Rikal, Ana K. de Figueiredo, and Isabel C. Riccobene

Subjects

Organic Chemistry, Food Science

Published

2023

3. Design, construction and operation of the ProtoDUNE-SP Liquid Argon TPC

Author

Abud, A. Abed Abi, B. Acciarri, R. Acero, M. A. Adames, M. R. Adamov, G. Adams, D. Adinolfi, M. Aduszkiewicz, A. and Aguilar, J. Ahmad, Z. Ahmed, J. Ali-Mohammadzadeh, B. and Alion, T. Allison, K. Monsalve, S. Alonso Alrashed, M. and Alt, C. Alton, A. Amedo, P. Anderson, J. and Andreopoulos, C. Andreotti, M. Andrews, M. P. Andrianala, F. and Andringa, S. Anfimov, N. Ankowski, A. Antoniassi, M. and Antonova, M. Antoshkin, A. Antusch, S. Aranda-Fernandez, A. and Ariga, A. Arnold, L. O. Arroyave, M. A. Asaadi, J. and Asquith, L. Aurisano, A. Aushev, V Autiero, D. and Ayala-Torres, M. Azfar, F. Back, A. Back, H. Back, J. J. and Backhouse, C. Baesso, P. Bagaturia, I Bagby, L. and Balashov, N. Balasubramanian, S. Baldi, P. Baller, B. and Bambah, B. Barao, F. Barenboim, G. Barker, G. J. and Barkhouse, W. Barnes, C. Barr, G. Barranco Monarca, J. and Barros, A. Barros, N. Barrow, J. L. Basharina-Freshville, A. and Bashyal, A. Basque, V Belchior, E. Battat, J. B. R. and Battisti, F. Bay, F. Alba, J. L. Bazo Beacom, J. F. and Bechetoille, E. Behera, B. Bellantoni, L. Bellettini, G. and Bellini, V Beltramello, O. Belver, D. Benekos, N. and Montiel, C. Benitez Neves, F. Bento Berger, J. Berkman, S. and Bernardini, P. Berner, R. M. Berns, H. Bertolucci, S. and Betancourt, M. Betancur Rodriguez, A. Bevan, A. Bezerra, T. J. C. Bhattacharjee, M. Bhuller, S. Bhuyan, B. Biagi, S. Bian, J. Biassoni, M. Biery, K. Bilki, B. Bishai, M. Bitadze, A. Blake, A. Blaszczyk, F. D. M. Blazey, G. C. Blucher, E. Boissevain, J. Bolognesi, S. Bolton, T. and Bomben, L. Bonesini, M. Bongrand, M. Bonini, F. and Booth, A. Booth, C. Boran, F. Bordoni, S. Borkum, A. and Boschi, T. Bostan, N. Bour, P. Bourgeois, C. Boyd, S. B. and Boyden, D. Bracinik, J. Braga, D. Brailsford, D. and Branca, A. Brandt, A. Bremer, J. Brew, C. Brianne, E. and Brice, S. J. Brizzolari, C. Bromberg, C. Brooijmans, G. and Brooke, J. Bross, A. Brunetti, G. Brunetti, M. and Buchanan, N. Budd, H. Butorov, I Cagnoli, I Caiulo, D. and Calabrese, R. Calafiura, P. Calcutt, J. Calin, M. and Calvez, S. Calvo, E. Caminata, A. Campanelli, M. and Cankocak, K. Caratelli, D. Carini, G. Carlus, B. and Carneiro, M. F. Carniti, P. Terrazas, I. Caro Carranza, H. and Carroll, T. Casta, J. F. Castillo, A. Castromonte, C. and Catano-Mur, E. Cattadori, C. Cavalier, F. Cavanna, F. and Centro, S. Cerati, G. Cervelli, A. Cervera Villanueva, A. Chalifour, M. Chappell, A. Chardonnet, E. and Charitonidis, N. Chatterjee, A. Chattopadhyay, S. Chen, H. and Chen, K. Chen, M. Chen, Y. Chen, Z. Cheon, Y. and Cherdack, D. Chi, C. Childress, S. Chiriacescu, A. and Chisnall, G. Cho, K. Choate, S. Chokheli, D. Chong, P. S. Choubey, S. Christensen, A. Christian, D. and Christodoulou, G. Chukanov, A. Chung, M. Church, E. and Cicero, V Clarke, P. Coan, T. E. Cocco, A. G. Coelho, J. A. B. Conley, E. Conley, R. Conrad, J. M. Convery, M. and Copello, S. Corwin, L. Valentim, R. Cremaldi, L. and Cremonesi, L. Crespo-Anadon, I, J. Crisler, M. Cristaldo, E. and Cross, R. Cudd, A. Cuesta, C. Cui, Y. Cussans, D. and Dabrowski, M. Dalager, O. da Motta, H. Peres, L. Da Silva David, C. David, Q. Davies, G. S. Davini, S. and Dawson, J. De, K. De Almeida, R. M. Debbins, P. De Bonis, I Decowski, M. P. de Gouvea, A. De Holanda, P. C. and Astiz, I. L. De Icaza Deisting, A. De Jong, P. Delbart, A. and Delepine, D. Delgado, M. Dell'Acqua, A. De Lurgio, P. and de Mello Neto, J. R. T. DeMuth, D. M. Dennis, S. and Densham, C. Deptuch, G. W. De Roeck, A. De Romeri, V De Souza, G. Devi, R. Dharmapalan, R. Dias, M. Diaz, F. and Diaz, J. S. Di Domizio, S. Di Giulio, L. Ding, P. Di Noto, L. Distefano, C. Diurba, R. Diwan, M. Djurcic, Z. and Doering, D. Dolan, S. Dolek, F. Dolinski, M. J. and Domine, L. Douglas, D. Douillet, D. Drake, G. Drielsma, F. Duarte, L. Duchesneau, D. Duffy, K. Dunne, P. and Durkin, T. Duyang, H. Dvornikov, O. Dwyer, D. A. and Dyshkant, A. S. Eads, M. Earle, A. Edmunds, D. Eisch, J. and Emberger, L. Emery, S. Ereditato, A. Erjavec, T. and Escobar, C. O. Eurin, G. Evans, J. J. Ewart, E. Ezeribe, A. C. Fahey, K. Falcone, A. Fani, M. Farnese, C. and Farzan, Y. Fedoseev, D. Felix, J. Feng, Y. and Fernandez-Martinez, E. Fernandez Menendez, P. Fernandez Morales, M. Ferraro, F. Fields, L. Filip, P. Filthaut, F. and Fiorentini, A. Fiorini, M. Fitzpatrick, R. S. Flanagan, W. and Fleming, B. Flight, R. Forero, V, D. Fowler, J. Fox, W. Franc, J. Francis, K. Franco, D. Freeman, J. and Freestone, J. Fried, J. Friedland, A. Robayo, F. Fuentes and Fuess, S. Furic, I Furmanski, A. P. Gabrielli, A. Gago, A. Gallagher, H. Gallas, A. Gallego-Ros, A. Gallice, N. and Galymov, V Gamberini, E. Gamble, T. Ganacim, F. and Gandhi, R. Gandrajula, R. Gao, F. Gao, S. Garcia, A. C. B. Garcia-Gamez, D. Garcia-Peris, M. A. Gardiner, S. and Gastler, D. Gauvreau, J. Ge, G. Gelli, B. Gendotti, A. and Gent, S. Ghorbani-Moghaddam, Z. Giammaria, P. Giammaria, T. Gibin, D. Gil-Botella, I Gilligan, S. Girerd, C. and Giri, A. K. Gnani, D. Gogota, O. Gold, M. Gollapinni, S. and Gollwitzer, K. Gomes, R. A. Gomez Bermeo, V, L. Gomez Fajardo, L. S. Gonnella, F. Gonzalez-Cuevas, J. A. Gonzalez Diaz, D. Gonzalez-Lopez, M. Goodman, M. C. Goodwin, O. and Goswami, S. Gotti, C. Goudzovski, E. Grace, C. Graham, M. Gran, R. Granados, E. Granger, P. Grant, A. and Grant, C. Gratieri, D. Green, P. Greenler, L. Greer, J. and Grenard, J. Griffith, W. C. Groh, M. Grudzinski, J. and Grzelak, K. Gu, W. Guardincerri, E. Guarino, V Guarise, M. Guenette, R. Guerard, E. Guerzoni, M. Guglielmi, A. and Guo, B. Guthikonda, K. K. Gutierrez, R. Guzowski, P. and Guzzo, M. M. Gwon, S. Ha, C. Habig, A. Hadavand, H. and Haenni, R. Hahn, A. Haiston, J. Hamacher-Baumann, P. and Hamernik, T. Hamilton, P. Han, J. Harris, D. A. and Hartnell, J. Harton, J. Hasegawa, T. Hasnip, C. Hatcher, R. Hatfield, K. W. Hatzikoutelis, A. Hayes, C. and Hayrapetyan, K. Hays, J. Hazen, E. He, M. Heavey, A. and Heeger, K. M. Heise, J. Hennessy, K. Henry, S. and Morquecho, M. A. Hernandez Herner, K. Hertel, L. Hewes, J. and Higuera, A. Hill, T. Hillier, S. J. Himmel, A. and Hirsch, L. R. Ho, J. Hoff, J. Holin, A. Hoppe, E. and Horton-Smith, G. A. Hostert, M. Hourlier, A. Howard, B. and Howell, R. Hristova, I Hronek, M. S. Huang, J. Huang, J. and Hugon, J. Iles, G. Ilic, N. Iliescu, A. M. and Illingworth, R. Ingratta, G. Ioannisian, A. Isenhower, L. and Itay, R. Izmaylov, A. Jackson, C. M. Jain, V James, E. Jang, W. Jargowsky, B. Jediny, F. Jena, D. Jeong, Y. S. Jesus-Valls, C. Ji, X. Jiang, L. Jimenez, S. and Jipa, A. Johnson, R. Johnston, N. Jones, B. Jones, S. B. and Judah, M. Jung, C. K. Junk, T. Jwa, Y. Kabirnezhad, M. Kaboth, A. Kadenko, I Kalra, D. Kakorin, I and Kalitkina, A. Kamiya, F. Kaneshige, N. Karagiorgi, G. and Karaman, G. Karcher, A. Karolak, M. Karyotakis, Y. and Kasai, S. Kasetti, S. P. Kashur, L. Kazaryan, N. Kearns, E. Keener, P. Kelly, K. J. Kemp, E. Kemularia, O. and Ketchum, W. Kettell, S. H. Khabibullin, M. Khotjantsev, A. and Khvedelidze, A. Kim, D. King, B. Kirby, B. Kirby, M. and Klein, J. Koehler, K. Koerner, L. W. Kohn, S. and Koller, P. P. Kolupaeva, L. Korablev, D. Kordosky, M. and Kosc, T. Kose, U. Kostelecky, V. A. Kothekar, K. and Krennrich, F. Kreslo, I Kropp, W. Kudenko, Y. and Kudryavtsev, V. A. Kulagin, S. Kumar, J. Kumar, P. and Kunze, P. Kuruppu, C. Kus, V Kutter, T. Kvasnicka, J. and Kwak, D. Lambert, A. Land, B. J. Lande, K. Lane, C. E. Lang, K. Langford, T. Langstaff, M. Larkin, J. and Lasorak, P. Last, D. Lastoria, C. Laundrie, A. Laurenti, G. Lawrence, A. Lazanu, I LaZur, R. Lazzaroni, M. and Le, T. Leardini, S. Learned, J. LeBrun, P. LeCompte, T. and Lee, C. Lee, S. Y. Miotto, G. Lehmann Lehnert, R. de Oliveira, M. A. Leigui Leitner, M. Lepin, L. M. Li, L. and Li, S. W. Li, T. Li, Y. Liao, H. Lin, C. S. Lin, Q. and Lin, S. Ling, J. Lister, A. Littlejohn, B. R. Liu, J. Lockwitz, S. Loew, T. Lokajicek, M. Lomidze, I and Long, K. Loo, K. Lord, T. LoSecco, J. M. Louis, W. C. and Lu, X-G Luk, K. B. Luo, X. Luppi, E. Lurkin, N. and Lux, T. Luzio, V. P. MacFarlane, D. Machado, A. A. and Machado, P. Macias, C. T. Macier, J. R. Maddalena, A. and Madera, A. Madigan, P. Magill, S. Mahn, K. Maio, A. and Major, A. Maloney, J. A. Mandrioli, G. Mandujano, R. C. and Maneira, J. Manenti, L. Manly, S. Mann, A. Manolopoulos, K. Plata, M. Manrique Manyam, V. N. Manzanillas, L. and Marchan, M. Marchionni, A. Marciano, W. Marfatia, D. and Mariani, C. Maricic, J. Marie, R. Marinho, F. Marino, A. D. Marsden, D. Marshak, M. Marshall, C. M. Marshall, J. and Marteau, J. Martin-Albo, J. Martinez, N. Caicedo, D. A. Martinez Martynenko, S. Mascagna, V Mason, K. Mastbaum, A. Masud, M. Matichard, F. Matsuno, S. Matthews, J. and Mauger, C. Mauri, N. Mavrokoridis, K. Mawby, I Mazza, R. and Mazzacane, A. Mazzucato, E. McAskill, T. McCluskey, E. and McConkey, N. McFarland, K. S. McGrew, C. McNab, A. and Mefodiev, A. Mehta, P. Melas, P. Mena, O. Menary, S. and Mendez, H. Mendez, P. Menegolli, A. Meng, G. Messier, M. D. Metcalf, W. Mettler, T. Mewes, M. Meyer, H. Miao, T. Michna, G. Miedema, T. Mikola, V Milincic, R. and Miller, G. Miller, W. Mills, J. Milne, C. Mineev, O. and Miranda, O. G. Miryala, S. Mishra, C. S. Mishra, S. R. and Mislivec, A. Mladenov, D. Mocioiu, I Moffat, K. Moggi, N. Mohanta, R. Mohayai, T. A. Mokhov, N. Molina, J. and Bueno, L. Molina Montagna, E. Montanari, A. Montanari, C. and Montanari, D. Montano Zetina, L. M. Moon, J. Moon, S. H. and Mooney, M. Moor, A. F. Moreno, D. Morris, C. Mossey, C. Motuk, E. Moura, C. A. Mousseau, J. Mouster, G. and Mu, W. Mualem, L. Mueller, J. Muether, M. Mufson, S. and Muheim, F. Muir, A. Mulhearn, M. Munford, D. Muramatsu, H. Murphy, S. Musser, J. Nachtman, J. Nagu, S. and Nalbandyan, M. Nandakumar, R. Naples, D. Narita, S. and Nath, A. Navas-Nicolas, D. Navrer-Agasson, A. Nayak, N. and Nebot-Guinot, M. Negishi, K. Nelson, J. K. Nesbit, J. and Nessi, M. Newbold, D. Newcomer, M. Newhart, D. Newton, H. Nichol, R. Nicolas-Arnaldos, F. Niner, E. Nishimura, K. Norman, A. Norrick, A. Northrop, R. Novella, P. and Nowak, J. A. Oberling, M. Ochoa-Ricoux, J. P. Del Campo, A. Olivares Olivier, A. Olshevskiy, A. Onel, Y. Onishchuk, Y. Ott, J. Pagani, L. Pakvasa, S. Palacio, G. and Palamara, O. Palestini, S. Paley, J. M. Pallavicini, M. and Palomares, C. Palomino-Gallo, J. L. Vazquez, W. Panduro and Pantic, E. Paolone, V Papadimitriou, V Papaleo, R. and Papanestis, A. Paramesvaran, S. Parke, S. Parozzi, E. and Parsa, Z. Parvu, M. Pascoli, S. Pasqualini, L. and Pasternak, J. Pater, J. Patrick, C. Patrizii, L. and Patterson, R. B. Patton, S. J. Patzak, T. Paudel, A. and Paulos, B. Paulucci, L. Pavlovic, Z. Pawloski, G. Payne, D. Pec, V Peeters, S. J. M. Pennacchio, E. Penzo, A. and Peres, O. L. G. Perry, J. Pershey, D. Pessina, G. and Petrillo, G. Petta, C. Petti, R. Piastra, F. Pickering, L. Pietropaolo, F. Plunkett, R. Poling, R. Pons, X. and Poonthottathil, N. Poppi, F. Pordes, S. Porter, J. and Potekhin, M. Potenza, R. Potukuchi, B. V. K. S. Pozimski, J. and Pozzato, M. Prakash, S. Prakash, T. Prest, M. and Prince, S. Psihas, F. Pugnere, D. Qian, X. Bazetto, M. C. Queiroga Raaf, J. L. Radeka, V Rademacker, J. Radics, B. Rafique, A. Raguzin, E. Rai, M. Rajaoalisoa, M. and Rakhno, I Rakotonandrasana, A. Rakotondravohitra, L. and Ramachers, Y. A. Rameika, R. Ramirez Delgado, M. A. Ramson, B. Rappoldi, A. Raselli, G. Ratoff, P. Raut, S. and Razakamiandra, R. F. Rea, E. Real, J. S. Rebel, B. and Reggiani-Guzzo, M. Rehak, T. Reichenbacher, J. Reitzner, S. D. Sfar, H. Rejeb Renshaw, A. Rescia, S. Resnati, F. and Reynolds, A. Ribas, M. Riboldi, S. Riccio, C. Riccobene, G. Rice, L. C. J. Ricol, J. Rigamonti, A. Rigaut, Y. and Rivera, D. Robert, A. Rochester, L. Roda, M. Rodrigues, P. Alonso, M. J. Rodriguez Bonilla, E. Rodriguez Rondon, J. Rodriguez Villa, L. A. Romo Rosauro-Alcaraz, S. Rosenberg, M. Rosier, P. Roskovec, B. Rossella, M. Rossi, M. and Rout, J. Roy, P. Roy, S. Rubbia, A. Rubbia, C. and Rubio, F. C. Russell, B. Ruterbories, D. Rybnikov, A. and Saa-Hernandez, A. Saakyan, R. Sacerdoti, S. Safford, T. and Sahu, N. Sala, P. Samios, N. Samoylov, O. Sanchez, M. C. and Sandberg, V Sanders, D. A. Sankey, D. Santana, S. and Santos-Maldonado, M. Saoulidou, N. Sapienza, P. Sarasty, C. and Sarcevic, I Savage, G. Savinov, V Scaramelli, A. and Scarff, A. Scarpelli, A. Schaffer, T. Schellman, H. and Schifano, S. Schlabach, P. Schmitz, D. Scholberg, K. and Schukraft, A. Segreto, E. Selyunin, A. Senise, C. R. and Sensenig, J. Seoane, M. Seong, I Sergi, A. Sgalaberna, D. Shaevitz, M. H. Shafaq, S. Shamma, M. Sharankova, R. and Sharma, H. R. Sharma, R. Kumar, R. Shaw, T. and Shepherd-Themistocleous, C. Sheshukov, A. Shin, S. and Shoemaker, I Shooltz, D. Shrock, R. Siegel, H. Simard, L. Simon, F. Simos, N. Sinclair, J. Sinev, G. Singh, J. Singh, J. Singh, L. Singh, V Sipos, R. Sippach, F. W. Sirri, G. Sitraka, A. Siyeon, K. Skarpaas, K. and Smith, A. Smith, E. Smith, P. Smolik, J. Smy, M. and Snider, E. L. Snopok, P. Snowden-Ifft, D. Nunes, M. Soares and Sobel, H. Soderberg, M. Sokolov, S. Solano Salinas, C. J. Soldner-Rembold, S. Soleti, S. R. Solomey, N. and Solovov, V Sondheim, W. E. Sorel, M. Sotnikov, A. and Soto-Oton, J. Sousa, A. Soustruznik, K. Spagliardi, F. and Spanu, M. Spitz, J. Spooner, N. J. C. Spurgeon, K. and Staley, R. Stancari, M. Stanco, L. Stanley, R. Stein, R. and Steiner, H. M. Lisboa, A. F. Steklain Stewart, J. and Stillwell, B. Stock, J. Stocker, F. Stokes, T. Strait, M. Strauss, T. Striganov, S. Stuart, A. Suarez, J. G. and Sullivan, H. Summers, D. Surdo, A. Susic, V Suter, L. Sutera, C. M. Svoboda, R. Szczerbinska, B. Szelc, A. M. Tanaka, H. A. Oregui, B. Tapia Tapper, A. Tariq, S. and Tatar, E. Tayloe, R. Teklu, A. M. Tenti, M. Terao, K. Ternes, C. A. Terranova, F. Testera, G. Thakore, T. and Thea, A. Thompson, J. L. Thorn, C. Timm, S. C. and Tishchenko, V Todd, J. Tomassetti, L. Tonazzo, A. and Torbunov, D. Torti, M. Tortola, M. Tortorici, F. Tosi, N. Totani, D. Toups, M. Touramanis, C. Travaglini, R. and Trevor, J. Trilov, S. Trzaska, W. H. Tsai, Y. Tsai, Y-T Tsamalaidze, Z. Tsang, V, K. Tsverava, N. Tufanli, S. Tull, C. Tyley, E. Tzanov, M. Uboldi, L. Uchida, M. A. Urheim, J. Usher, T. Uzunyan, S. Vagins, M. R. and Vahle, P. Valdiviesso, G. A. Valencia, E. Pia, V and Vallari, Z. Vallazza, E. Valle, J. W. F. Vallecorsa, S. and Van Berg, R. Van de Water, R. G. Varanini, F. Vargas, D. and Varner, G. Vasel, J. Vasina, S. Vasseur, G. Vaughan, N. and Vaziri, K. Ventura, S. Verdugo, A. Vergani, S. and Vermeulen, M. A. Verzocchi, M. Vicenzi, M. de Souza, H. Vieira Vignoli, C. Vilela, C. Viren, B. Vrba, T. and Wachala, T. Waldron, V, A. Wallbank, M. Wallis, C. Wang, H. Wang, J. Wang, L. Wang, M. H. L. S. Wang, Y. and Wang, Y. Warburton, K. Warner, D. Wascko, M. O. Waters, D. Watson, A. Weatherly, P. Weber, A. Weber, M. Wei, H. Weinstein, A. Wenman, D. Wetstein, M. White, A. and Whitehead, L. H. Whittington, D. Wilking, M. J. Wilkinson, C. Williams, Z. Wilson, F. Wilson, R. J. Wisniewski, W. and Wolcott, J. Wongjirad, T. Wood, A. Wood, K. and Worcester, E. Worcester, M. Wret, C. Wu, W. Wu, W. and Xiao, Y. Xie, F. Yandel, E. Yang, G. Yang, K. Yang, S. Yang, T. Yankelevich, A. Yershov, N. Yonehara, K. and Young, T. Yu, B. Yu, H. Yu, H. Yu, J. Yuan, W. and Zaki, R. Zalesak, J. Zambelli, L. Zamorano, B. Zani, A. and Zazueta, L. Zeller, G. P. Zennamo, J. Zeug, K. and Zhang, C. Zhao, M. Zhivun, E. Zhu, G. Zilberman, P. and Zimmerman, E. D. Zito, M. Zucchelli, S. Zuklin, J. and Zutshi, V Zwaska, R. DUNE Collaboration

Abstract

The ProtoDUNE-SP detector is a single-phase liquid argon time projection chamber (LArTPC) that was constructed and operated in the CERN North Area at the end of the H4 beamline. This detector is a prototype for the first far detector module of the Deep Underground Neutrino Experiment (DUNE), which will be constructed at the Sandford Underground Research Facility (SURF) in Lead, South Dakota, U.S.A. The ProtoDUNE-SP detector incorporates full-size components as designed for DUNE and has an active volume of 7 x 6 x 7.2 m3. The H4 beam delivers incident particles with well-measured momenta and high-purity particle identification. ProtoDUNE-SP's successful operation between 2018 and 2020 demonstrates the effectiveness of the single-phase far detector design. This paper describes the design, construction, assembly and operation of the detector components.

Published

2022

4. Deep underground neutrino experiment (DUNE) near detector conceptual design report

Author

Abud, A.A. Abi, B. Acciarri, R. Acero, M.A. Adamov, G. Adams, D. Adinolfi, M. Aduszkiewicz, A. Ahmad, Z. Ahmed, J. Alion, T. Monsalve, S.A. Alrashed, M. Alt, C. Alton, A. Amedo, P. Anderson, J. Andreopoulos, C. Andrews, M.P. Andrianala, F. Andringa, S. Anfimov, N. Ankowski, A. Antonova, M. Antusch, S. Aranda-Fernandez, A. Ariga, A. Arnold, L.O. Arroyave, M.A. Asaadi, J. Aurisano, A. Aushev, V. Autiero, D. Ayala-Torres, M. Azfar, F. Back, A. Back, H. Back, J.J. Backhouse, C. Baesso, P. Bagaturia, I. Bagby, L. Balasubramanian, S. Baldi, P. Baller, B. Bambah, B. Barao, F. Barenboim, G. Barker, G.J. Barkhouse, W. Barnes, C. Barr, G. Monarca, J.B. Barros, N. Barrow, J.L. Basharina-Freshville, A. Bashyal, A. Basque, V. Belchior, E. Battat, J.B.R. Battisti, F. Bay, F. Alba, J.L.B. Beacom, J.F. Bechetoille, E. Behera, B. Bellantoni, L. Bellettini, G. Bellini, V. Beltramello, O. Belver, D. Benekos, N. Neves, F.B. Berkman, S. Bernardini, P. Berner, R.M. Berns, H. Bertolucci, S. Betancourt, M. Rodríguez, A.B. Bhattacharjee, M. Bhuller, S. Bhuyan, B. Biagi, S. Bian, J. Biassoni, M. Biery, K. Bilki, B. Bishai, M. Bitadze, A. Blake, A. Blaszczyk, F.D.M. Blazey, G.C. Blucher, E. Boissevain, J. Bolognesi, S. Bolton, T. Bomben, L. Bonesini, M. Bongrand, M. Bonini, F. Booth, A. Booth, C. Bordoni, S. Borkum, A. Boschi, T. Bostan, N. Bour, P. Bourgeois, C. Boyd, S.B. Boyden, D. Bracinik, J. Braga, D. Brailsford, D. Brandt, A. Bremer, J. Brew, C. Brianne, E. Brice, S.J. Brizzolari, C. Bromberg, C. Brooijmans, G. Brooke, J. Bross, A. Brunetti, G. Brunetti, M. Buchanan, N. Budd, H. Cagnoli, I. Caiulo, D. Calafiura, P. Calcutt, J. Calin, M. Calvez, S. Calvo, E. Caminata, A. Campanelli, M. Cankocak, K. Caratelli, D. Carini, G. Carlus, B. Carniti, P. Terrazas, I.C. Carranza, H. Carroll, T. Castaño Forero, J.F. Castillo, A. Castromonte, C. Catano-Mur, E. Cattadori, C. Cavalier, F. Cavanna, F. Centro, S. Cerati, G. Cervelli, A. Villanueva, A.C. Chalifour, M. Chappell, A. Chardonnet, E. Charitonidis, N. Chatterjee, A. Chattopadhyay, S. Chen, H. Chen, M. Chen, Y. Chen, Z. Cherdack, D. Chi, C. Childress, S. Chiriacescu, A. Chisnall, G. Cho, K. Choate, S. Chokheli, D. Choubey, S. Christensen, A. Christian, D. Christodoulou, G. Chukanov, A. Church, E. Cicero, V. Clarke, P. Coan, T.E. Cocco, A.G. Coelho, J.A.B. Conley, E. Conley, R. Conrad, J.M. Convery, M. Copello, S. Corwin, L. Cremaldi, L. Cremonesi, L. Crespo-Anadón, J.I. Cristaldo, E. Cross, R. Cudd, A. Cuesta, C. Cui, Y. Cussans, D. Dabrowski, M. Dalager, O. Da Motta, H. Da Silva Peres, L. David, C. David, Q. Davies, G.S. Davini, S. Dawson, J. De, K. De Almeida, R.M. Debbins, P. De Bonis, I. Decowski, M.P. De Gouvêa, A. De Holanda, P.C. De Icaza Astiz, I.L. Deisting, A. De Jong, P. Delbart, A. Delepine, D. Delgado, M. Dell’Acqua, A. De Lurgio, P. De Mello Neto, J.R.T. De Muth, D.M. Dennis, S. Densham, C. Deptuch, G.W. De Roeck, A. De Romeri, V. De Souza, G. Dharmapalan, R. Diaz, F. Díaz, J.S. Di Domizio, S. Di Giulio, L. Ding, P. Di Noto, L. Distefano, C. Diurba, R. Diwan, M. Djurcic, Z. Dokania, N. Dolan, S. Dolinski, M.J. Domine, L. Douglas, D. Douillet, D. Drake, G. Drielsma, F. Duchesneau, D. Duffy, K. Dunne, P. Durkin, T. Duyang, H. Dvornikov, O. Dwyer, D.A. Dyshkant, A.S. Eads, M. Earle, A. Edmunds, D. Eisch, J. Emberger, L. Emery, S. Ereditato, A. Escobar, C.O. Eurin, G. Evans, J.J. Ewart, E. Ezeribe, A.C. Fahey, K. Falcone, A. Farnese, C. Farzan, Y. Felix, J. Carneiro Da Silva, M.F. Fernandez-Martinez, E. Fernandez Menendez, P. Ferraro, F. Fields, L. Filthaut, F. Fiorentini, A. Fitzpatrick, R.S. Flanagan, W. Fleming, B. Flight, R. Forero, D.V. Fowler, J. Fox, W. Franc, J. Francis, K. Franco, D. Freeman, J. Freestone, J. Fried, J. Friedland, A. Fuess, S. Furic, I. Furmanski, A.P. Gabrielli, A. Gago, A. Gallagher, H. Gallas, A. Gallego-Ros, A. Gallice, N. Galymov, V. Gamberini, E. Gamble, T. Gandhi, R. Gandrajula, R. Gao, F. Gao, S. Garcia-Gamez, D. García-Peris, M.Á. Gardiner, S. Gastler, D. Ge, G. Gelli, B. Gendotti, A. Gent, S. Ghorbani-Moghaddam, Z. Gibin, D. Gil-Botella, I. Gilligan, S. Girerd, C. Giri, A.K. Gnani, D. Gogota, O. Gold, M. Gollapinni, S. Gollwitzer, K. Gomes, R.A. Gomez Bermeo, L.V. Gomez Fajardo, L.S. Gonnella, F. Gonzalez-Cuevas, J.A. Gonzalez-Diaz, D. Gonzalez-Lopez, M. Goodman, M.C. Goodwin, O. Goswami, S. Gotti, C. Goudzovski, E. Grace, C. Graham, M. Gran, R. Granados, E. Granger, P. Grant, A. Grant, C. Gratieri, D. Green, P. Greenler, L. Greer, J. Griffith, W.C. Groh, M. Grudzinski, J. Grzelak, K. Gu, W. Guarino, V. Guenette, R. Guerard, E. Guerzoni, M. Guglielmi, A. Guo, B. Guthikonda, K.K. Gutierrez, R. Guzowski, P. Guzzo, M.M. Gwon, S. Habig, A. Hadavand, H. Haenni, R. Hahn, A. Haiston, J. Hamacher-Baumann, P. Hamernik, T. Hamilton, P. Han, J. Harris, D.A. Hartnell, J. Harton, J. Hasegawa, T. Hasnip, C. Hatcher, R. Hatfield, K.W. Hatzikoutelis, A. Hayes, C. Hazen, E. Heavey, A. Heeger, K.M. Heise, J. Hennessy, K. Henry, S. Hernandez Morquecho, M.A. Herner, K. Hertel, L. Hewes, J. Higuera, A. Hill, T. Hillier, S.J. Himmel, A. Hoff, J. Hohl, C. Holin, A. Hoppe, E. Horton-Smith, G.A. Hostert, M. Hourlier, A. Howard, B. Howell, R. Huang, J. Huang, J. Hugon, J. Iles, G. Ilic, N. Iliescu, A.M. Illingworth, R. Ingratta, G. Ioannisian, A. Isenhower, L. Itay, R. Izmaylov, A. Jackson, S. Jain, V. James, E. Jargowsky, B. Jediny, F. Jena, D. Jeong, Y.S. Jesús-Valls, C. Ji, X. Jiang, L. Jiménez, S. Jipa, A. Johnson, R. Johnston, N. Jones, B. Jones, S.B. Judah, M. Jung, C.K. Junk, T. Jwa, Y. Kabirnezhad, M. Kaboth, A. Kadenko, I. Kakorin, I. Kamiya, F. Kaneshige, N. Karagiorgi, G. Karaman, G. Karcher, A. Karolak, M. Karyotakis, Y. Kasai, S. Kasetti, S.P. Kashur, L. Kazaryan, N. Kearns, E. Keener, P. Kelly, K.J. Kemp, E. Kemularia, O. Ketchum, W. Kettell, S.H. Khabibullin, M. Khotjantsev, A. Khvedelidze, A. Kim, D. King, B. Kirby, B. Kirby, M. Klein, J. Koehler, K. Koerner, L.W. Kohn, S. Koller, P.P. Kolupaeva, L. Kordosky, M. Kosc, T. Kose, U. Kostelecký, V.A. Kothekar, K. Krennrich, F. Kreslo, I. Kudenko, Y. Kudryavtsev, V.A. Kulagin, S. Kumar, J. Kumar, P. Kumar, R. Kunze, P. Kurita, N. Kuruppu, C. Kus, V. Kutter, T. Lambert, A. Land, B. Lande, K. Lane, C.E. Lang, K. Langford, T. Larkin, J. Lasorak, P. Last, D. Lastoria, C. Laundrie, A. Laurenti, G. Lawrence, A. Lazanu, I. Lazur, R. Le, T. Leardini, S. Learned, J. Lebrun, P. Lecompte, T. Lehmann Miotto, G. Lehnert, R. Leigui De Oliveira, M.A. Leitner, M. Li, L. Li, S.W. Li, T. Li, Y. Liao, H. Lin, C.S. Lin, Q. Lin, S. Lister, A. Littlejohn, B.R. Liu, J. Lockwitz, S. Loew, T. Lokajicek, M. Lomidze, I. Long, K. Loo, K. Lorca, D. Lord, T. Losecco, J.M. Louis, W.C. Lu, X.-G. Luk, K.B. Luo, X. Lurkin, N. Lux, T. Luzio, V.P. Macfarlane, D. Machado, A.A. Machado, P. Macias, C.T. Macier, J.R. Maddalena, A. Madera, A. Madigan, P. Magill, S. Mahn, K. Maio, A. Major, A. Maloney, J.A. Mandrioli, G. Mandujano, R.C. Maneira, J. Manenti, L. Manly, S. Mann, A. Manolopoulos, K. Manrique Plata, M. Manyam, V.N. Manzanillas, L. Marchan, M. Marchionni, A. Marciano, W. Marfatia, D. Mariani, C. Maricic, J. Marie, R. Marinho, F. Marino, A.D. Marsden, D. Marshak, M. Marshall, C.M. Marshall, J. Marteau, J. Martin-Albo, J. Martinez, N. Martinez Caicedo, D.A. Martynenko, S. Mason, K. Mastbaum, A. Masud, M. Matsuno, S. Matthews, J. Mauger, C. Mauri, N. Mavrokoridis, K. Mawby, I. Mazza, R. Mazzacane, A. Mazzucato, E. McAskill, T. McCluskey, E. McConkey, N. McFarland, K.S. McGrew, C. McNab, A. Mefodiev, A. Mehta, P. Melas, P. Mena, O. Menary, S. Mendez, H. Méndez, D.P. Menegolli, A. Meng, G. Messier, M.D. Metcalf, W. Mettler, T. Mewes, M. Meyer, H. Miao, T. Michna, G. Miedema, T. Migenda, J. Mikola, V. Milincic, R. Miller, W. Mills, J. Milne, C. Mineev, O. Miranda, O.G. Miryala, S. Mishra, C.S. Mishra, S.R. Mislivec, A. Mladenov, D. Mocioiu, I. Moffat, K. Moggi, N. Mohanta, R. Mohayai, T.A. Mokhov, N. Molina, J. Molina Bueno, L. Montanari, A. Montanari, C. Montanari, D. Montagna, E. Montano Zetina, L.M. Moon, J. Mooney, M. Moor, A.F. Moreno, D. Morris, C. Mossey, C. Motuk, E. Moura, C.A. Mousseau, J. Mu, W. Mualem, L. Mueller, J. Muether, M. Mufson, S. Muheim, F. Muir, A. Mulhearn, M. Munford, D. Muramatsu, H. Murphy, S. Musser, J. Nachtman, J. Nagu, S. Nalbandyan, M. Nandakumar, R. Naples, D. Narita, S. Navas-Nicolás, D. Navrer-Agasson, A. Nayak, N. Nebot-Guinot, M. Negishi, K. Nelson, J.K. Nesbit, J. Nessi, M. Newbold, D. Newcomer, M. Newhart, D. Newton, H. Niccolo, M. Nichol, R. Nicolas-Arnaldos, F. Nicoletta, M. Niner, E. Nishimura, K. Norman, A. Norrick, A. Northrop, R. Novella, P. Nowak, J.A. Oberling, M. Ochoa-Ricoux, J.P. Olivares Del Campo, A. Olivier, A. Olshevskiy, A. Onel, Y. Onishchuk, Y. Ott, J. Pagani, L. Pakvasa, S. Palacio, G. Palamara, O. Palestini, S. Paley, J.M. Pallavicini, M. Palomares, C. Palomino-Gallo, J.L. Pantic, E. Paolone, V. Papadimitriou, V. Papaleo, R. Papanestis, A. Paramesvaran, S. Parke, S. Parsa, Z. Parvu, M. Pascoli, S. Pasqualini, L. Pasternak, J. Pater, J. Patrick, C. Patrizii, L. Patterson, R.B. Patton, S.J. Patzak, T. Paudel, A. Paulos, B. Paulucci, L. Pavlovic, Z. Pawloski, G. Payne, D. Pec, V. Peeters, S.J.M. Pennacchio, E. Penzo, A. Peres, O.L.G. Perry, J. Pershey, D. Pessina, G. Petrillo, G. Petta, C. Petti, R. Piastra, F. Pickering, L. Pietropaolo, F. Plunkett, R. Poling, R. Pons, X. Poonthottathil, N. Poppi, F. Pordes, S. Porter, J. Potekhin, M. Potenza, R. Potukuchi, B.V.K.S. Pozimski, J. Pozzato, M. Prakash, S. Prakash, T. Prince, S. Pugnere, D. Qian, X. Queiroga Bazetto, M.C. Raaf, J.L. Radeka, V. Rademacker, J. Radics, B. Rafique, A. Raguzin, E. Rai, M. Rajaoalisoa, M. Rakhno, I. Rakotonandrasana, A. Rakotondravohitra, L. Ramachers, Y.A. Rameika, R. Ramirez Delgado, M.A. Ramson, B. Rappoldi, A. Raselli, G. Ratoff, P. Raut, S. Razakamiandra, R.F. Real, J.S. Rebel, B. Reggiani-Guzzo, M. Rehak, T. Reichenbacher, J. Reitzner, S.D. Rejeb Sfar, H. Renshaw, A. Rescia, S. Resnati, F. Reynolds, A. Riccio, C. Riccobene, G. Rice, L.C.J. Ricol, J. Rigamonti, A. Rigaut, Y. Rivera, D. Rochester, L. Roda, M. Rodrigues, P. Rodriguez Alonso, M.J. Rodriguez Bonilla, E. Rodriguez Rondon, J. Rosauro-Alcaraz, S. Rosenberg, M. Rosier, P. Roskovec, B. Rossella, M. Rout, J. Roy, P. Roy, S. Rubbia, A. Rubbia, C. Rubio, F.C. Russell, B. Ruterbories, D. Saakyan, R. Sacerdoti, S. Safford, T. Sahay, R. Sahu, N. Sala, P. Samios, N. Samoylov, O. Sanchez, M.C. Sanders, D.A. Sankey, D. Santana, S. Santos-Maldonado, M. Saoulidou, N. Sapienza, P. Sarasty, C. Sarcevic, I. Savage, G. Savinov, V. Scaramelli, A. Scarff, A. Scarpelli, A. Schaffer, T. Schellman, H. Schlabach, P. Schmitz, D. Scholberg, K. Schukraft, A. Segreto, E. Sensenig, J. Seong, I. Sergi, A. Sgalaberna, D. Shaevitz, M.H. Shafaq, S. Shamma, M. Sharankova, R. Sharma, H.R. Sharma, R. Shaw, T. Shepherd-Themistocleous, C. Shin, S. Shooltz, D. Shrock, R. Simard, L. Simon, F. Simos, N. Sinclair, J. Sinev, G. Singh, J. Singh, J. Singh, V. Sipos, R. Sippach, F.W. Sirri, G. Sitraka, A. Siyeon, K. Skarpaas, K. Smith, A. Smith, E. Smith, P. Smolik, J. Smy, M. Snider, E.L. Snopok, P. Soares Nunes, M. Sobel, H. Soderberg, M. Solano Salinas, C.J. Söldner-Rembold, S. Soleti, S. Solomey, N. Solovov, V. Sondheim, W.E. Sorel, M. Soto-Oton, J. Sousa, A. Soustruznik, K. Spagliardi, F. Spanu, M. Spitz, J. Spooner, N.J.C. Spurgeon, K. Staley, R. Stancari, M. Stanco, L. Stanley, R. Stein, R. Steiner, H.M. Stewart, J. Stillwell, B. Stock, J. Stocker, F. Stokes, T. Strait, M. Strauss, T. Striganov, S. Stuart, A. Suarez, J.G. Sullivan, H. Summers, D. Surdo, A. Susic, V. Suter, L. Sutera, C.M. Svoboda, R. Szczerbinska, B. Szelc, A.M. Talaga, R. Tanaka, H.A. Oregui, B.T. Tapper, A. Tariq, S. Tatar, E. Tayloe, R. Teklu, A.M. Tenti, M. Terao, K. Ternes, C.A. Terranova, F. Testera, G. Thea, A. Thompson, J.L. Thorn, C. Timm, S.C. Todd, J. Tonazzo, A. Torbunov, D. Torti, M. Tortola, M. Tortorici, F. Totani, D. Toups, M. Touramanis, C. Tosi, N. Travaglini, R. Trevor, J. Trilov, S. Trzaska, W.H. Tsai, Y.T. Tsamalaidze, Z. Tsang, K.V. Tsverava, N. Tufanli, S. Tull, C. Tyley, E. Tzanov, M. Uchida, M.A. Urheim, J. Usher, T. Uzunyan, S. Vagins, M.R. Vahle, P. Valdiviesso, G.A. Valencia, E. Valerio, P. Vallari, Z. Valle, J.W.F. Vallecorsa, S. Van Berg, R. Van De Water, R.G. Varanini, F. Vargas, D. Varner, G. Vasel, J. Vasina, S. Vasseur, G. Vaughan, N. Vaziri, K. Ventura, S. Verdugo, A. Vergani, S. Vermeulen, M.A. Verzocchi, M. Vicenzi, M. Vieira De Souza, H. Vignoli, C. Vilela, C. Viren, B. Vrba, T. Wachala, T. Waldron, A.V. Wallbank, M. Wang, H. Wang, J. Wang, L. Wang, M.H.L.S. Wang, Y. Wang, Y. Warburton, K. Warner, D. Wascko, M. Waters, D. Watson, A. Weatherly, P. Weber, A. Weber, M. Wei, H. Weinstein, A. Wenman, D. Wetstein, M. White, A. Whitehead, L.H. Whittington, D. Wilking, M.J. Wilkinson, C. Williams, Z. Wilson, F. Wilson, R.J. Wolcott, J. Wongjirad, T. Wood, A. Wood, K. Worcester, E. Worcester, M. Wret, C. Wu, W. Wu, W. Xiao, Y. Yandel, E. Yang, G. Yang, K. Yang, S. Yang, T. Yankelevich, A. Yershov, N. Yonehara, K. Young, T. Yu, B. Yu, H. Yu, J. Yuan, W. Zaki, R. Zalesak, J. Zambelli, L. Zamorano, B. Zani, A. Zazueta, L. Zeit, G. Zeller, G.P. Zennamo, J. Zeug, K. Zhang, C. Zhao, M. Zhivun, E. Zhu, G. Zilberman, P. Zimmerman, E.D. Zito, M. Zucchelli, S. Zuklin, J. Zutshi, V. Zwaska, R. DUNE Collaboration

Subjects

Physics::Instrumentation and Detectors, High Energy Physics::Experiment

Abstract

The Deep Underground Neutrino Experiment (DUNE) is an international, world-class experiment aimed at exploring fundamental questions about the universe that are at the forefront of astrophysics and particle physics research. DUNE will study questions pertaining to the preponderance of matter over antimatter in the early universe, the dynamics of supernovae, the subtleties of neutrino interaction physics, and a number of beyond the Standard Model topics accessible in a powerful neutrino beam. A critical component of the DUNE physics program involves the study of changes in a powerful beam of neutrinos, i.e., neutrino oscillations, as the neutrinos propagate a long distance. The experiment consists of a near detector, sited close to the source of the beam, and a far detector, sited along the beam at a large distance. This document, the DUNE Near Detector Conceptual Design Report (CDR), describes the design of the DUNE near detector and the science program that drives the design and technology choices. The goals and requirements underlying the design, along with projected performance are given. It serves as a starting point for a more detailed design that will be described in future documents. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Published

2021

5. Searching for solar KDAR with DUNE

Author

Abud, A. Abed Abi, B. Acciarri, R. Acero, M. A. Adames, M. R. Adamov, G. Adams, D. Adinolfi, M. Aduszkiewicz, A. and Aguilar, J. Ahmad, Z. Ahmed, J. Ali-Mohammadzadeh, B. and Alion, T. Allison, K. Monsalve, S. Alonso Alrashed, M. and Alt, C. Alton, A. Amedo, P. Anderson, J. and Andreopoulos, C. Andreotti, M. Andrews, M. P. Andrianala, F. and Andringa, S. Anfimov, N. Ankowski, A. Antoniassi, M. and Antonova, M. Antoshkin, A. Antusch, S. Aranda-Fernandez, A. and Ariga, A. Arnold, L. O. Arroyave, M. A. Asaadi, J. and Asquith, L. Aurisano, A. Aushev, V Autiero, D. and Ayala-Torres, M. Azfar, F. Back, A. Back, H. Back, J. J. and Backhouse, C. Baesso, P. Bagaturia, I Bagby, L. and Balashov, N. Balasubramanian, S. Baldi, P. Baller, B. and Bambah, B. Barao, F. Barenboim, G. Barker, G. J. and Barkhouse, W. Barnes, C. Barr, G. Barranco Monarca, J. and Barros, A. Barros, N. Barrow, J. L. Basharina-Freshville, A. and Bashyal, A. Basque, V Belchior, E. Battat, J. B. R. and Battisti, F. Bay, F. Bazo Alba, J. L. Beacom, J. F. and Bechetoille, E. Behera, B. Bellantoni, L. Bellettini, G. and Bellini, V Beltramello, O. Belver, D. Benekos, N. and Benitez Montiel, C. Neves, F. Bento Berger, J. Berkman, S. and Bernardini, P. Berner, R. M. Berns, H. Bertolucci, S. and Betancourt, M. Betancur Rodriguez, A. Bevan, A. Bezerra, T. J. C. Bhatnagar, V Bhattacharjee, M. Bhuller, S. and Bhuyan, B. Biagi, S. Bian, J. Biassoni, M. Biery, K. and Bilki, B. Bishai, M. Bitadze, A. Blake, A. Blaszczyk, F. D. M. Blazey, G. C. Blucher, E. Boissevain, J. and Bolognesi, S. Bolton, T. Bomben, L. Bonesini, M. and Bongrand, M. Bonini, F. Booth, A. Booth, C. Boran, F. and Bordoni, S. Borkum, A. Boschi, T. Bostan, N. Bour, P. Bourgeois, C. Boyd, S. B. Boyden, D. Bracinik, J. and Braga, D. Brailsford, D. Branca, A. Brandt, A. Bremer, J. Brew, C. Brianne, E. Brice, S. J. Brizzolari, C. and Bromberg, C. Brooijmans, G. Brooke, J. Bross, A. and Brunetti, G. Brunetti, M. Buchanan, N. Budd, H. Butorov, I Cagnoli, I Caiulo, D. Calabrese, R. Calafiura, P. and Calcutt, J. Calin, M. Calvez, S. Calvo, E. Caminata, A. and Campanelli, M. Cankocak, K. Caratelli, D. Carini, G. and Carlus, B. Carneiro, M. F. Carniti, P. Terrazas, I. Caro and Carranza, H. Carroll, T. Castano Forero, J. F. Castillo, A. and Castromonte, C. Catano-Mur, E. Cattadori, C. Cavalier, F. Cavanna, F. Centro, S. Cerati, G. Cervelli, A. and Cervera Villanueva, A. Chalifour, M. Chappell, A. and Chardonnet, E. Charitonidis, N. Chatterjee, A. and Chattopadhyay, S. Chen, H. Chen, M. Chen, Y. Chen, Z. and Cheon, Y. Cherdack, D. Chi, C. Childress, S. and Chiriacescu, A. Chisnall, G. Cho, K. Choate, S. and Chokheli, D. Chong, P. S. Choubey, S. Christensen, A. and Christian, D. Christodoulou, G. Chukanov, A. Chung, M. and Church, E. Cicero, V Clarke, P. Coan, T. E. Cocco, A. G. and Coelho, J. A. B. Conley, E. Conley, R. Conrad, J. M. and Convery, M. Copello, S. Corwin, L. Valentim, R. and Cremaldi, L. Cremonesi, L. Crespo-Anadon, I, J. Crisler, M. and Cristaldo, E. Cross, R. Cudd, A. Cuesta, C. Cui, Y. and Cussans, D. Dalager, O. da Motta, H. Peres, L. Da Silva and David, C. David, Q. Davies, G. S. Davini, S. Dawson, J. De, K. Debbins, P. De Bonis, I Decowski, M. P. de Gouvea, A. De Holanda, P. C. Astiz, I. L. De Icaza Deisting, A. De Jong, P. Delbart, A. Delepine, D. Delgado, M. and Dell'Acqua, A. De Lurgio, P. de Mello Neto, J. R. T. DeMuth, D. M. Dennis, S. Densham, C. Deptuch, G. W. De Roeck, A. and De Romeri, V De Souza, G. Devi, R. Dharmapalan, R. and Dias, M. Diaz, F. Diaz, J. S. Di Domizio, S. Di Giulio, L. Ding, P. Di Noto, L. Distefano, C. Diurba, R. and Diwan, M. Djurcic, Z. Doering, D. Dolan, S. Dolek, F. and Dolinski, M. J. Domine, L. Douglas, D. Douillet, D. and Drake, G. Drielsma, F. Duarte, L. Duchesneau, D. Duffy, K. Dunne, P. Durkin, T. Duyang, H. Dvornikov, O. and Dwyer, D. A. Dyshkant, A. S. Eads, M. Earle, A. Edmunds, D. Eisch, J. Emberger, L. Emery, S. 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Khotjantsev, A. Khvedelidze, A. Kim, D. and King, B. Kirby, B. Kirby, M. Klein, J. Koehler, K. and Koerner, L. W. Kohn, S. Koller, P. P. Kolupaeva, L. and Korablev, D. Kordosky, M. Kosc, T. Kose, U. Kostelecky, V. A. Kothekar, K. Krennrich, F. Kreslo, I Kropp, W. and Kudenko, Y. Kudryavtsev, V. A. Kulagin, S. Kumar, J. and Kumar, P. Kunze, P. Kuruppu, C. Kus, V Kutter, T. and Kvasnicka, J. Kwak, D. Lambert, A. Land, B. J. Lande, K. and Lane, C. E. Lang, K. Langford, T. Langstaff, M. and Larkin, J. Lasorak, P. Last, D. Lastoria, C. Laundrie, A. Laurenti, G. Lawrence, A. Lazanu, I LaZur, R. and Lazzaroni, M. Le, T. Leardini, S. Learned, J. LeBrun, P. and LeCompte, T. Lee, C. Lee, S. Y. Miotto, G. Lehmann and Lehnert, R. de Oliveira, M. A. Leigui Leitner, M. Lepin, L. M. Li, L. Li, S. W. Li, T. Li, Y. Liao, H. Lin, C. S. Lin, Q. Lin, S. Ling, J. Lister, A. and Littlejohn, B. R. Liu, J. Lockwitz, S. Loew, T. and Lokajicek, M. Lomidze, I Long, K. Loo, K. Lord, T. and LoSecco, J. M. Louis, W. C. Lu, X-G Luk, K. B. Luo, X. and Luppi, E. Lurkin, N. Lux, T. Luzio, V. P. and MacFarlane, D. Machado, A. A. Machado, P. Macias, C. T. and Macier, J. R. Maddalena, A. Madera, A. Madigan, P. and Magill, S. Mahn, K. Maio, A. Major, A. Maloney, J. A. and Mandrioli, G. Mandujano, R. C. Maneira, J. Manenti, L. and Manly, S. Mann, A. Manolopoulos, K. Plata, M. Manrique and Manyam, V. N. Manzanillas, L. Marchan, M. Marchionni, A. and Marciano, W. Marfatia, D. Mariani, C. Maricic, J. and Marie, R. Marinho, F. Marino, A. D. Marsden, D. Marshak, M. Marshall, C. M. Marshall, J. Marteau, J. Martin-Albo, J. Martinez, N. Caicedo, D. A. Martinez Martynenko, S. and Mascagna, V Mason, K. Mastbaum, A. Masud, M. Matichard, F. Matsuno, S. Matthews, J. Mauger, C. Mauri, N. and Mavrokoridis, K. Mawby, I Mazza, R. Mazzacane, A. and Mazzucato, E. McAskill, T. McCluskey, E. McConkey, N. and McFarland, K. S. McGrew, C. McNab, A. Mefodiev, A. and Mehta, P. Melas, P. Mena, O. Menary, S. Mendez, H. and Mendez, P. Menegolli, A. Meng, G. Messier, M. D. and Metcalf, W. Mettler, T. Mewes, M. Meyer, H. Miao, T. and Michna, G. Miedema, T. Mikola, V Milincic, R. Miller, G. and Miller, W. Mills, J. Milne, C. Mineev, O. Miranda, O. G. Miryala, S. Mishra, C. S. Mishra, S. R. Mislivec, A. Mladenov, D. Mocioiu, I Moffat, K. Moggi, N. and Mohanta, R. Mohayai, T. A. Mokhov, N. Molina, J. Bueno, L. Molina Montagna, E. Montanari, A. Montanari, C. and Montanari, D. Zetina, L. M. Montano Moon, J. Moon, S. H. and Mooney, M. Moor, A. F. Moreno, D. Morris, C. Mossey, C. and Motuk, E. Moura, C. A. Mousseau, J. Mouster, G. Mu, W. Mualem, L. Mueller, J. Muether, M. Mufson, S. and Muheim, F. Muir, A. Mulhearn, M. Munford, D. Muramatsu, H. Murphy, S. Musser, J. Nachtman, J. Nagu, S. and Nalbandyan, M. Nandakumar, R. Naples, D. Narita, S. and Nath, A. Navas-Nicolas, D. Navrer-Agasson, A. Nayak, N. and Nebot-Guinot, M. Negishi, K. Nelson, J. K. Nesbit, J. and Nessi, M. Newbold, D. Newcomer, M. Newhart, D. Newton, H. Nichol, R. Nicolas-Arnaldos, F. Niner, E. Nishimura, K. Norman, A. Norrick, A. Northrop, R. Novella, P. and Nowak, J. A. Oberling, M. Ochoa-Ricoux, J. P. Del Campo, A. Olivares Olivier, A. Olshevskiy, A. Onel, Y. Onishchuk, Y. Ott, J. Pagani, L. Pakvasa, S. Palacio, G. and Palamara, O. Palestini, S. Paley, J. M. Pallavicini, M. and Palomares, C. Palomino-Gallo, J. L. Vazquez, W. Panduro and Pantic, E. Paolone, V Papadimitriou, V Papaleo, R. and Papanestis, A. Paramesvaran, S. Parke, S. Parozzi, E. and Parsa, Z. Parvu, M. Pascoli, S. Pasqualini, L. and Pasternak, J. Pater, J. Patrick, C. Patrizii, L. and Patterson, R. B. Patton, S. J. Patzak, T. Paudel, A. and Paulos, B. Paulucci, L. Pavlovic, Z. Pawloski, G. Payne, D. Pec, V Peeters, S. J. M. Pennacchio, E. Penzo, A. and Peres, O. L. G. Perry, J. Pershey, D. Pessina, G. and Petrillo, G. Petta, C. Petti, R. Pia, V Piastra, F. and Pickering, L. Pietropaolo, F. Plunkett, R. Poling, R. and Pons, X. Poonthottathil, N. Poppi, F. Pordes, S. Porter, J. Potekhin, M. Potenza, R. Potukuchi, B. V. K. S. and Pozimski, J. Pozzato, M. Prakash, S. Prakash, T. Prest, M. Prince, S. Psihas, F. Pugnere, D. Qian, X. and Bazetto, M. C. Queiroga Raaf, J. L. Radeka, V Rademacker, J. and Radics, B. Rafique, A. Raguzin, E. Rai, M. and Rajaoalisoa, M. Rakhno, I Rakotonandrasana, A. and Rakotondravohitra, L. Ramachers, Y. A. Rameika, R. Delgado, M. A. Ramirez Ramson, B. Rappoldi, A. Raselli, G. and Ratoff, P. Raut, S. Razakamiandra, R. F. Rea, E. Real, J. S. Rebel, B. Reggiani-Guzzo, M. Rehak, T. and Reichenbacher, J. Reitzner, S. D. Sfar, H. Rejeb Renshaw, A. and Rescia, S. Resnati, F. Reynolds, A. Ribas, M. and Riboldi, S. Riccio, C. Riccobene, G. Rice, L. C. J. and Ricol, J. Rigamonti, A. Rigaut, Y. Rivera, D. Robert, A. and Rochester, L. Roda, M. Rodrigues, P. Alonso, M. J. Rodriguez Rodriguez Bonilla, E. Rondon, J. Rodriguez and Rosauro-Alcaraz, S. Rosenberg, M. Rosier, P. Roskovec, B. and Rossella, M. Rossi, M. Rott, C. Rout, J. Roy, P. and Roy, S. Rubbia, A. Rubbia, C. Rubio, F. C. Russell, B. and Ruterbories, D. Rybnikov, A. Saa-Hernandez, A. Saakyan, R. Sacerdoti, S. Safford, T. Sahu, N. Sala, P. and Samios, N. Samoylov, O. Sanchez, M. C. Sandberg, V and Sanders, D. A. Sankey, D. Santana, S. Santos-Maldonado, M. and Saoulidou, N. Sapienza, P. Sarasty, C. Sarcevic, I and Savage, G. Savinov, V Scaramelli, A. Scarff, A. and Scarpelli, A. Schaffer, T. Schellman, H. Schifano, S. and Schlabach, P. Schmitz, D. Scholberg, K. Schukraft, A. and Segreto, E. Selyunin, A. Senise, C. R. Sensenig, J. and Seoane, M. Seong, I Sergi, A. Sgalaberna, D. Shaevitz, M. H. Shafaq, S. Shamma, M. Sharankova, R. Sharma, H. R. and Sharma, R. Kumar, R. Shaw, T. Shepherd-Themistocleous, C. Sheshukov, A. Shin, S. Shoemaker, I Shooltz, D. and Shrock, R. Siegel, H. Simard, L. Simon, F. Sinclair, J. and Sinev, G. Singh, J. Singh, J. Singh, L. Singh, V and Sipos, R. Sippach, F. W. Sirri, G. Sitraka, A. Siyeon, K. Skarpaas, K. Smith, A. Smith, E. Smith, P. and Smolik, J. Smy, M. Snider, E. L. Snopok, P. and Snowden-Ifft, D. Nunes, M. Soares Sobel, H. Soderberg, M. and Sokolov, S. Solano Salinas, C. J. Soldner-Rembold, S. and Soleti, S. R. Solomey, N. Solovov, V Sondheim, W. E. and Sorel, M. Sotnikov, A. Soto-Oton, J. Sousa, A. and Soustruznik, K. Spagliardi, F. Spanu, M. Spitz, J. and Spooner, N. J. C. Spurgeon, K. Staley, R. Stancari, M. and Stanco, L. Stanley, R. Stein, R. Steiner, H. M. Lisboa, A. F. Steklain Stewart, J. Stillwell, B. Stock, J. and Stocker, F. Stokes, T. Strait, M. Strauss, T. Striganov, S. Stuart, A. Suarez, J. G. Sullivan, H. Summers, D. and Surdo, A. Susic, V Suter, L. Sutera, C. M. Svoboda, R. and Szczerbinska, B. Szelc, A. M. Tanaka, H. A. Oregui, B. Tapia Tapper, A. Tariq, S. Tatar, E. Tayloe, R. and Teklu, A. M. Tenti, M. Terao, K. Ternes, C. A. and Terranova, F. Testera, G. Thakore, T. Thea, A. Thompson, J. L. Thorn, C. Timm, S. C. Tishchenko, V Todd, J. and Tomassetti, L. Tonazzo, A. Torbunov, D. Torti, M. and Tortola, M. Tortorici, F. Tosi, N. Totani, D. Toups, M. and Touramanis, C. Travaglini, R. Trevor, J. Trilov, S. and Tripathi, A. Trzaska, W. H. Tsai, Y. Tsai, Y-T and Tsamalaidze, Z. Tsang, V, K. Tsverava, N. Tufanli, S. and Tull, C. Tyley, E. Tzanov, M. Uboldi, L. Uchida, M. A. and Urheim, J. Usher, T. Uzunyan, S. Vagins, M. R. and Vahle, P. Valdiviesso, G. A. Valencia, E. Vallari, Z. and Vallazza, E. Valle, J. W. F. Vallecorsa, S. Van Berg, R. and Van de Water, R. G. Varanini, F. Vargas, D. Varner, G. and Vasel, J. Vasina, S. Vasseur, G. Vaughan, N. Vaziri, K. and Ventura, S. Verdugo, A. Vergani, S. Vermeulen, M. A. and Verzocchi, M. Vicenzi, M. de Souza, H. Vieira Vignoli, C. and Vilela, C. Viren, B. Vrba, T. Wachala, T. Waldron, V, A. Wallbank, M. Wallis, C. Wang, H. Wang, J. and Wang, L. Wang, M. H. L. S. Wang, Y. Wang, Y. Warburton, K. Warner, D. Wascko, M. O. Waters, D. Watson, A. and Weatherly, P. Weber, A. Weber, M. Wei, H. Weinstein, A. and Wenman, D. Wetstein, M. White, A. Whitehead, L. H. and Whittington, D. Wilking, M. J. Wilkinson, C. Williams, Z. and Wilson, F. Wilson, R. J. Wisniewski, W. Wolcott, J. and Wongjirad, T. Wood, A. Wood, K. Worcester, E. Worcester, M. Wret, C. Wu, W. Wu, W. Xiao, Y. Xie, F. and Yandel, E. Yang, G. Yang, K. Yang, S. Yang, T. and Yankelevich, A. Yershov, N. Yonehara, K. Young, T. Yu, B. Yu, H. Yu, H. Yu, J. Yuan, W. Zaki, R. and Zalesak, J. Zambelli, L. Zamorano, B. Zani, A. Zazueta, L. Zeller, G. P. Zennamo, J. Zeug, K. Zhang, C. and Zhao, M. Zhivun, E. Zhu, G. Zilberman, P. Zimmerman, E. D. Zito, M. Zucchelli, S. Zuklin, J. Zutshi, V and Zwaska, R. DUNE Collaboration

Subjects

High Energy Physics::Experiment

Abstract

The observation of 236 MeV muon neutrinos from kaon-decay-at-rest (KDAR) originating in the core of the Sun would provide a unique signature of dark matter annihilation. Since excellent angle and energy reconstruction are necessary to detect this monoenergetic, directional neutrino flux, DUNE with its vast volume and reconstruction capabilities, is a promising candidate for a KDAR neutrino search. In this work, we evaluate the proposed KDAR neutrino search strategies by realistically modeling both neutrino-nucleus interactions and the response of DUNE. We find that, although reconstruction of the neutrino energy and direction is difficult with current techniques in the relevant energy range, the superb energy resolution, angular resolution, and particle identification offered by DUNE can still permit great signal/background discrimination. Moreover, there are non-standard scenarios in which searches at DUNE for KDAR in the Sun can probe dark matter interactions.

Published

2021

6. Investigation of strained Si/SiGe devices by MC simulation

Author

Christoph Jungemann, Bernd Meinerzhagen, C. Riccobene, Qi Xiang, Jung-Suk Goo, and Niraj Subba

Subjects

Materials science, business.industry, Monte Carlo method, Doping, Gate length, Hardware_PERFORMANCEANDRELIABILITY, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Threshold voltage, MOSFET, Hardware_INTEGRATEDCIRCUITS, Materials Chemistry, Optoelectronics, Electrical and Electronic Engineering, Performance improvement, Device simulation, business

Abstract

Transport in Si NMOSFETs with gate lengths from 48 to 23 nm is investigated by full-band Monte Carlo device simulation for three sets of devices: (I) unstrained Si control devices, (II) process matched strained Si devices, and (III) threshold voltage matched strained Si devices. While the process matched strained Si devices show the same performance improvement for all gate lengths, this is not the case for the threshold voltage matched devices for which the performance improvement degrades with shrinking gate length due to the heavier doping.

Published

2004

7. Efficient generation of pre-silicon MOS model parameters for early circuit design

Author

B. Liu, Chenming Hu, C. Riccobene, Michael Orshansky, Chun Jiang, and J. An

Subjects

Engineering, business.industry, Circuit design, Mixed-signal integrated circuit, Hardware_PERFORMANCEANDRELIABILITY, Integrated circuit design, Integrated circuit, Discrete circuit, Electronic circuit simulation, Circuit extraction, law.invention, law, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Electrical and Electronic Engineering, Physical design, business

Abstract

The technology development cycle continues to shrink, which very often requires evaluation of circuit design and technology choices using circuit simulators at the time when no real silicon is available. In this paper, we present an efficient methodology for generating pre-silicon device models for advanced CMOS processes. The methodology allows accurate prediction of the full MOS I-V characteristics for the future technologies combining a constraint backpropagation algorithm based upon a few critical specifications, physical models for the advanced device phenomena, and the empirical data from devices of an existing technology. The methodology has been tested on two CMOS production technologies. Good prediction results are achieved: for nMOS the rms error is 1%-2%, for pMOS it is 2%-4%.

Published

2001

8. Full three-dimensional numerical analysis of multi-collector magnetotransistors with directional sensitivity

Author

C. Riccobene, K. Gartner, Wolfgang Fichtner, Gerhard Wachutka, and Henry Baltes

Subjects

Engineering, Computer simulation, business.industry, Numerical analysis, Acoustics, Bipolar junction transistor, Metals and Alloys, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Magnetic field, Complex geometry, Calibration, Electronic engineering, Sensitivity (control systems), Electrical and Electronic Engineering, business, Instrumentation, Common emitter

Abstract

We have studied the operation of multi-collector bipolar transistors with directional magnetic-field sensitivity. The complex three-dimensional (3D) device consists of four crosswise-arranged lateral transistors with one common central emitter. To analyse the electrical characteristics and sensor performance, we have modelled the complete device structure using technological and physical parameters extracted from experimental measurements on real devices. Because of the complex geometry, a full 3D numerical analysis of carrier flow and electrostatic potential is required in order to study the effects of an arbitrarily oriented magnetic field. A simplified analysis confined to the 2D central mirror plane is inadequate even for the mere electric device behaviour at zero magnetic field. This reflects the problem of current calibration inherent in 2D approximations of devices with widely differing contact areas. To overcome this discrepancy, we have implemented for the first time the 3D galvanomagnetic transport vector equations in a state-of-the-art general-purpose device simulator.

Published

1995

9. Production and characterization of anisotropic particles from biodegradable materials

Author

Francis S. Romanski, M. Silvina Tomassone, Jennifer S Winkler, and Ryan C Riccobene

Subjects

Materials science, Polyesters, Biocompatible Materials, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Diglycerides, chemistry.chemical_compound, Polylactic Acid-Polyglycolic Acid Copolymer, Polymer chemistry, Electrochemistry, Zeta potential, General Materials Science, Lactic Acid, Spectroscopy, chemistry.chemical_classification, Surfaces and Interfaces, Polymer, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Biodegradable polymer, 0104 chemical sciences, Electrophoresis, chemistry, Chemical engineering, Drug delivery, Polycaprolactone, Particle, Anisotropy, 0210 nano-technology, Drug carrier, Polyglycolic Acid

Abstract

In recent years, production and characterization of anisotropic particles has become of interest in a wide range of scientific fields including polymer chemistry, drug delivery, electronics, energy, and nanotechnology. In this work, we demonstrate a novel formulation for production of anisotropic particles via an internal phase separation of biodegradable components. Specifically, binary mixtures of biodegradable polymers poly(lactic-co-glycolic acid), polycaprolactone, and biodegradable lipid Precirol (glyceryl palmitostearate) were dissolved in dichloromethane, emulsified, and prepared into anisotropic particles using a modified solvent evaporation technique. During the slow evaporation process the components self-assembled into anisotropic particles with distinct morphologies. Polymer/polymer formulations resulted in compartmentalized anisotropic heterodimer particles, while polymer/lipid combinations yielded "ice cream cone" shaped particles. It was found that addition of certain active pharmaceuticals resulted in an altered, pox-like segregation at the particle surface of polymer/polymer formulations. The anisotropic nature of the particles was subsequently characterized using optical microscopy, scanning electron microscopy, zeta potential, electrophoresis, and X-ray diffraction. Successful formulations presented here may potentially be employed as multicompartmental drug carriers with staggered drug release rates or alternatively as a colloidal excipient for an arsenal of pharmaceutical applications.

Published

2012

10. Operating principle of dual collector magnetotransistors studied by two-dimensional simulation

Author

G. Wachutka, C. Riccobene, J. Burgler, and Henry Baltes

Subjects

Engineering, Computer simulation, business.industry, Bipolar junction transistor, Transistor, Electrical engineering, Semiconductor device, Integrated circuit, Electronic, Optical and Magnetic Materials, law.invention, law, Electronic engineering, Sensitivity (control systems), Electrical and Electronic Engineering, business, Common emitter, Electronic circuit

Abstract

Dual collector magnetotransistors are magnetic-field-sensitive devices currently developed in several laboratories. Optimized sensor design is often attempted by trial and error rather than by established design rules. This motivated the present comprehensive study of the operation of magnetotransistors by accurate two-dimensional numerical simulations. We model vertical and lateral transistors as obtained by industrial IC technology on the basis of data provided by the chip manufacturer. We consider the entire device structure with the full, complex device geometry, and the physically proper boundary conditions. Our simulations reveal the details, controversial hitherto, of the operating principle of these devices. In particular we find that, in the case of the vertical transistor, it is essentially the emitter injection modulation effect which dominates the sensor response. In the case of the lateral transistor, the magnetic sensitivity is predominantly determined by minority-carrier deflection, although side effects are involved as well. By variation of the doping profile and the device geometry we derive rules for optimized magnetotransistor design. >

Published

1994

11. Determination of characteristic magnetotransistor parameters by measurement and inverse modelling

Author

Gerhard Wachutka, R. Castagnetti, Henry Baltes, and C. Riccobene

Subjects

Engineering, Integrable system, Basis (linear algebra), business.industry, Analyser, Metals and Alloys, Inverse, Control engineering, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Software, Evaluation methods, Electronic engineering, Electrical and Electronic Engineering, business, Instrumentation

Abstract

We report on the development and validation of a methodology that allows the easy, reliable and destruction-free extraction of characteristic magnetotransistor parameters from the completely processed devices. The required experimental set-up is inexpensive, easy to build up and integrable in existing parameter analyser systems. The proposed evaluation methods have been verified on the basis of measurements as well as on exact two-dimensional numerical simulations. Implementation in a suitable parameter extraction software will allow standardized and automated measurements to be carried out.

Published

1993

12. AngioLab: integrated technology for patient-specific management of intracranial aneurysms

Author

Hrvoje Bogunovic, Marco D. Mazzeo, Luigi Carotenuto, Xavier Planes, Pedro Omedas, A. F. Frangi, C. Riccobene, Yves Martelli, Valeria Barbarito, Maria-Cruz Villa-Uriol, Jose M. Pozo, A. J. Geers, and Ignacio Larrabide

Subjects

medicine.medical_specialty, Computer science, MEDLINE, Hemodynamics, Intracranial Aneurysm, Patient specific, medicine.disease, Neurovascular bundle, Patient Care Planning, Aneurysm, Integrated technology, medicine, Humans, Medical physics, Computer Simulation, Radiology, Endovascular treatment, Software

Abstract

AngioLab is a software tool developed within the GIMIAS framework and is part of a more ambitious pipeline for the integrated management of cerebral aneurysms. AngioLab currently includes three plug-ins: angio segmentation, angio morphology and stenting, as well as supports advanced rendering techniques for the visualization of virtual angiographies. In December 2009, 23 clinicians completed an evaluation questionnaire about AngioLab. This activity was part of a teaching course held during the 2(nd) European Society for Minimally Invasive Neurovascular Treatment (ESMINT) Teaching Course held at the Universitat Pompeu Fabra, Barcelona, Spain. The Automated Morphological Analysis (angio morphology plug-in) and the Endovascular Treatment Planning (stenting plug-in) were evaluated. In general, the results provided by these tools were considered as relevant and as an emerging need in their clinical field.

Published

2010

13. Two-dimensional numerical modeling of dual-collector magnetotransistors: Evidence for emitter efficiency modulation

Author

C. Riccobene, J. Burgler, Henry Baltes, and Gerhard Wachutka

Subjects

Physics, Work (thermodynamics), Computer simulation, business.industry, Lorentz transformation, Bipolar junction transistor, Metals and Alloys, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Dual (category theory), symbols.namesake, Optics, Modulation, Deflection (engineering), symbols, Electrical and Electronic Engineering, business, Instrumentation, Common emitter

Abstract

We studied the galvanomagnetic carrier transport in magnetic-field-sensitive integrated bipolar transistors by means of exact two-dimensional numerical simulation. The devices considered are dual-collector magnetotransistors as obtained by industrial bipolar IC technology. In contrast to previous work, the complete device structure in its full extension has been modeled. Our simulations clearly demonstrate that in this device type, apart from Lorentz deflection in the collector zone, it is essentially the much disputed emitter injection modulation effect which is decisive for the sensor response.

Published

1992

14. Optimal Contact Placement in Partially Depleted SOI with Application to Raised Source-Drain Structures

Author

Andy Wei, C. Riccobene, Manfred Horstmann, Thomas Feudel, N. Subba, and Scott Luning

Subjects

Materials science, Contact resistance, Current crowding, Silicon on insulator, Edge (geometry), Current (fluid), Engineering physics

Abstract

We have studied the impact on drive current of bringing the S/D contacts closer to the gate edge. We found that there is an optimal location for contact placement beyond which Idsat decreases. The decrease in Idsat is due to two phenomena: i) current crowding and ii) increase in contact resistance. We show that raised S/D structure will be able to circumvent these problems and allow for further improvement in drive current.

Published

2004

15. 70 nm MOSFET with ultra-shallow, abrupt, and super-doped S/D extension implemented by laser thermal process (LTP)

Author

Yun Wang, Ming-Ren Lin, C. Riccobene, Haihong Wang, Bin Yu, S. Talwar, and Qi Xiang

Subjects

Electron mobility, Materials science, Silicon, Excimer laser, business.industry, medicine.medical_treatment, Transistor, chemistry.chemical_element, Dopant Activation, Laser, law.invention, chemistry, CMOS, law, MOSFET, medicine, Electronic engineering, Optoelectronics, business

Abstract

For the first time, a sub-100 nm gate length CMOS transistor is demonstrated with the source/drain extension implemented by laser thermal process (LTP). Ultra-shallow (

Published

2003

16. Magnetotransistors in SOI technology

Author

Henry Baltes, C. Riccobene, R. Castagnetti, M. Schneider, and Gerhard Wachutka

Subjects

Materials science, business.industry, Transistor, Bipolar junction transistor, PIN diode, Semiconductor device modeling, Silicon on insulator, Carrier lifetime, Substrate (electronics), law.invention, CMOS, law, Optoelectronics, business

Abstract

This paper reports on characterization and numerical modelling of dual-collector magnetotransistors with suppressed sidewall injection (SSIMT) fabricated in silicon on insulator (SOI) technology. This process allows to eliminate, by design, the undesirable high substrate current usually present in conventional bipolar or CMOS fabricated SSIMT's. Two-dimensional simulations reveal that the device operates like a PIN diode rather than as a true transistor, as expected. The presence of an electron-hole plasma in the active device region inhibits a proper transistor behavior. The magnetic performance of the SSIMT is improved by reducing the minority carrier lifetime and by redefining the doping profiles of the process. >

Published

2002

17. First three-dimensional numerical analysis of magnetic vector probe

Author

C. Riccobene, Wolfgang Fichtner, Henry Baltes, K. Gartner, and Gerhard Wachutka

Subjects

Engineering, business.industry, Numerical analysis, Transistor, Magnetic field, Computational physics, law.invention, Complex geometry, Flow (mathematics), law, Calibration, Electronic engineering, Sensitivity (control systems), business, Common emitter

Abstract

We studied the operation of multi-collector bipolar transistors with directional magnetic field sensitivity. The complex three-dimensional (3D) device consists of four crosswise-arranged lateral transistors with one common central emitter. To analyze the electrical characteristics and sensor performance, we modeled the complete device structure using technological and physical parameters, extracted from experimental measurements on real devices. Because of the complex geometry, a full 3D numerical analysis of carrier flow and electrostatic potential is required in order to study the effects of an arbitrarily oriented magnetic field. Full 3D analysis is essential also in devices whose contact areas differ widely. In this case, a simplified analysis confined on the 2D central mirror plane is inadequate even for the mere electric device behavior at zero magnetic field. This reflects the problem of current calibration inherent in 2D approximations of devices with truly 3D structures. To overcome this discrepancy, we implemented, for the first time, the 3D galvanomagnetic transport vector equations in a state-of-the-art general purpose device simulator. >

Published

2002

18. Nanoscale CMOS at low temperature: design, reliability, and scaling trend

Author

Ming-Ren Lin, Qi Xiang, Chenming Hu, Haihong Wang, Hyeon-Seag Kim, Bin Yu, C. Riccobene, and Leland Chang

Subjects

Computer science, Diode-or circuit, Hardware_PERFORMANCEANDRELIABILITY, Integrated circuit, Integrated circuit design, Chip, law.invention, Integrated injection logic, Reliability (semiconductor), CMOS, law, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Scaling

Abstract

The semiconductor industry is not motivated to make practical use of cryogenic operation as long as IC performance could be improved at room temperature. However, as CMOS approaches the scaling limits, cooled chip operation becomes an attractive alternative. This paper explores the feasibility of IC temperature "scaling" and its implications to device performance and reliability for sub-50 nm CMOS generations.

Published

2002

19. Assessing circuit level impact of self-heating in 0.13 μm SOI CMOS

Author

C. Tretz, S.P. Sinha, M. Pelella, and C. Riccobene

Subjects

Materials science, CMOS, business.industry, Heat transfer, Electronic engineering, Electrical engineering, Silicon on insulator, Soi cmos, business, Self heating, Current density, Scaling, Electronic circuit

Abstract

3D simulations have been performed to study the impact of self-heating in SOI on circuits. Using multiple finger structures we have established bounds on the magnitude of the heat increase and its behavior with device scaling. This allows circuit designers to quickly evaluate temperature variations in real circuits under various operating conditions. for various device sizes and subject to different current density thanks to simple scaling of the presented results. The approach gives a simple and efficient way to take into account self heating in circuit optimization. In addition. contrary to previous studies, we have found that the heat predominantly flows through the buried oxide.

Published

2002

20. Limits of gate-oxide scaling in nano-transistors

Author

Ming-Ren Lin, Qi Xiang, Bin Yu, C. Riccobene, and Haihong Wang

Subjects

Materials science, business.industry, Gate dielectric, Electrical engineering, Time-dependent gate oxide breakdown, Hardware_PERFORMANCEANDRELIABILITY, CMOS, Hardware_GENERAL, Gate oxide, MOSFET, Hardware_INTEGRATEDCIRCUITS, Optoelectronics, Hardware_ARITHMETICANDLOGICSTRUCTURES, business, Metal gate, AND gate, Hardware_LOGICDESIGN, Leakage (electronics)

Abstract

This paper explores the ultimate scaling limit of gate oxide due to MOSFET gate leakage and device performance. The limit on Tox reduction with respect to gate leakage tolerance is considered by the concept of "dynamic" gate leakage in nano-scale MOSFET's. Tox scaling is also limited by transistor performance degradation due to the loss of inversion layer charge through gate leakage and the degradation of carrier mobility in the channel from increased scattering. All the three effects are investigated experimentally on CMOS devices with gate length down to 50 nm and gate Tox down to 12 A. The minimum Tox is proposed and the implications on voltage scaling, high-k gate dielectrics and low-temperature CMOS are discussed.

Published

2002

21. Combined Device-Circuit Simulation for Advanced Semiconductor Devices

Author

J. F. Bürgler, W. Fichtner, C. Riccobene, W. M. Coughran, and H. Dettmer

Subjects

Computer science, Logic simulation, Semiconductor device modeling, Electronic engineering, Power semiconductor device, Transient (oscillation), Semiconductor process simulation, BiCMOS, Process simulation, Electronic circuit

Abstract

To develop and optimize semiconductor devices it is common practice to advocate numerical device modeling by using simulation programs. Typically the simulation of a unit is split into levels, starting with process simulation (to study the effect of wafer-processing steps) and device simulation (to study the electrical behavior), to circuit simulation (to study the electrical features of an ensemble of devices), leading possibly to the logic simulation of a whole unit. Unfortunately, this approach makes it very hard to model the interaction of the device and the circuit in the transient case: therefore, in order to optimize the transient behavior of a particular device it is necessary to include the effects of both the drive circuit (i.e., control part), as well as the load circuit. During the last year, we have developed a software environment for combined device-circuit simulation studies dedicated to semiconductor power devices, magnetic field sensors, and Bicmos structures augmented with simple circuits. In our work we discuss some critical points in detail. These include the grid generation and adaptation, the scaling of the unknowns (i.e., how to deal with high voltages), the numerical procedures used to solve the transient problem (with special attention to supercomputer architectures), the assembly of the device (element assembly versus edge assembly) and circuit equations as well as the physical models used. We show that it is essential to properly chose the numerical techniques to obtain accurate and reliable results. Studies of the turn-off of power devices, the switching of BiCMOS structures, and of magnetic field sensors indicate the success of the current approach.

Published

1994

22. Gaucher disease prevalence in 600 patients affected by monoclonal gammopathy of undetermined significance.

Author

Giuffrida G, Markovic U, Condorelli A, Duminuco A, Calafiore V, Conticello C, Romano A, Grasso S, Riccobene C, Ragusa MTV, Esposito B, Nicolosi D, Calagna M, Nardo A, Consoli U, Uccello G, Di Giacomo V, Neri S, Cingari MR, Rodà F, Innao V, Fiumara A, Duro G, Zizzo C, and Di Raimondo F

Subjects

Humans, Aged, Prevalence, Monoclonal Gammopathy of Undetermined Significance complications, Monoclonal Gammopathy of Undetermined Significance diagnosis, Monoclonal Gammopathy of Undetermined Significance epidemiology, Gaucher Disease complications, Gaucher Disease diagnosis, Gaucher Disease epidemiology, Paraproteinemias, Anemia

Abstract

Background: Gaucher disease (GD) is a rare autosomal recessive inherited disorder caused by the lysosomal enzyme acid β-glucosidase deficiency. Many patients experience a critical delay in the diagnosis of up to 8-10 years due to its rarity and variability in signs and symptoms, with the consultation of several specialists., Patients and Methods: This prospective observational study analyzed the prevalence of GD in 600 patients with monoclonal gammopathy of uncertain significance (MGUS) from January 2018 until February 2022., Results: The mean age of participants was 66 years, with a mean monoclonal component of 0.58 g/dL. In 433 MGUS patients with available data, anemia (hemoglobin level < 10 g/dL) was present in 31 patients (7%), and thrombocytopenia (platelet count <100.000/mm 3 ) in 24 (5.5%). Of 600 MGUS patients tested for acid β-glucosidase enzyme activity, 7 patients (1.2%) had activity below 2.5 nmol/h/mL. In comparison, GBA gene analysis was executed in 110 patients. It revealed 4 patients (0.7%) affected by GD (3 patients with compound heterozygous mutation and 1 with homozygous mutation), with a prevalence of 1 every 150 MGUS patients. Furthermore, 12 out of the remaining 106 evaluated patients (11%) were carriers of a single heterozygous mutation while having regular enzyme activity., Conclusions: The clinical heterogeneity of GD and frequent lack of awareness among physicians often lead to diagnostic delays and severe clinical manifestations. The role of MGUS in the presence of at least one clinical sign, such as low platelet count, organomegaly, bone pain, or bleeding tendency, could aid in initiating GD screening with DBS, thus reducing the period between symptom onset and the diagnosis of this rare disease., (© 2023 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2023

23. Effectiveness and Safety of Eliglustat Treatment in Gaucher Disease: Real-life Unicentric Experience.

Author

Duminuco A, Fazio M, Grasso S, Gullo L, Riccobene C, Calafiore V, Markovic U, Di Raimondo F, and Giuffrida G

Subjects

Humans, Pyrrolidines therapeutic use, Psychosine therapeutic use, Enzyme Replacement Therapy adverse effects, Gaucher Disease drug therapy, Gaucher Disease diagnosis

Abstract

Purpose: The therapy and management of Gaucher disease (GD) have radically changed with the use of substrate reduction therapy, of which eliglustat is the most widely known drug, allowing it to overcome the limits of enzyme replacement therapy (ERT). The rarity of GD and the limited use of eliglustat outside clinical trials require further study of its strengths and weaknesses., Methods: In this study, we evaluated the effectiveness and safety of eliglustat in a cohort of 12 patients with GD followed up in our center, reporting a reduction in both chitotriosidase (394.3 vs 181.1 nmol/h/mL, P = 0.027) and glucosylsphingosine values (45.1 vs 18.9 ng/mL, P <0.001) after at least 12 months of therapy compared with baseline, regardless of patient demographic characteristics and GD characteristics., Findings: There were no drug-related serious adverse effects and no drug-related cardiac events. Most adverse events were mild and transient, mainly dyspepsia and abdominal pain. Of interest, we reported an absence of statistical difference in terms of response regarding glucosylsphingosine reduction in relation to naive or prior exposure to ERT (P = 0.296), which was confirmed also when patients were placed in naive and treated groups for <5 vs >5 years (P = 0.667)., Implications: The use of eliglustat immediately after diagnosis may guarantee the best treatment for patients with milder phenotypes or with aggressive disease after an initial stabilization with ERT compared with ERT, which cannot adequately remove the disease burden despite the apparent response, thus potentially reducing future complications caused by substrate deposits., Competing Interests: Declaration of Competing Interest G. Giuffrida received consultancy fees from Sanofi Genzyme, and U. Markovic received consultancy fees from Sanofi Genzyme and Amgen. The other authors declare no relevant conflict of interest to declare. The authors have indicated that they have no other conflicts of interest regarding the content of this article., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

24. Acquired hemophilia A following COVID-19 vaccination - The importance of prompt diagnosis: A case report.

Author

Duminuco A, Calagna M, Markovic U, Esposito B, Grasso S, Riccobene C, Di Raimondo F, and Giuffrida G

Subjects

Male, Humans, Aged, COVID-19 Vaccines adverse effects, Hemorrhage complications, Hemophilia A complications, Hemophilia A diagnosis, Hemophilia A drug therapy, COVID-19 diagnosis, COVID-19 prevention & control, COVID-19 complications

Abstract

Acquired hemophilia A (AHA) is a rare coagulopathy characterized by hemorrhagic manifestations. It has been linked to various conditions, including autoimmune disorders, drugs, tumors, lymphoproliferative disorders, and infections. We present a case of AHA in a 71-year-old male patient with cutaneous hematoma occurring 8 days after vaccination for COVID-19. This report aims to highlight the risk of FVIII inhibitor development following an immune stimulus, thus improving our knowledge regarding possible vaccination-related adverse events. Furthermore, we underline how the potential risk of not recognizing disease manifestations promptly, together with specific coagulation alterations, could significantly affect the patient's outcome. Adequate management plans and the diffusion of shared guidelines are of fundamental importance in order to prevent the development of life-threatening complications and initiate appropriate treatment as soon as possible. DATA AVAILABILITY: All data generated or analyzed during this study are included in this article. Further inquiries can be directed to the corresponding author., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2023

25. Relapse of immune-mediated thrombotic thrombocytopenic purpura following mRNA COVID-19 vaccination: a prospective cohort study.

Author

Giuffrida G, Markovic U, Condorelli A, Calagna M, Grasso S, Duminuco A, Riccobene C, Pelle AC, Zanghi G, and Di Raimondo F

Subjects

Adult, Humans, ADAMTS13 Protein, Chronic Disease, Prospective Studies, Recurrence, Vaccination adverse effects, COVID-19 prevention & control, COVID-19 Vaccines adverse effects, Purpura, Thrombotic Thrombocytopenic diagnosis

Abstract

Immune-mediated thrombotic thrombocytopenic purpura (iTTP) is a rare and life-threatening disease. Vaccination has been reported to be a trigger of onset and relapse of autoimmune diseases. We evaluated after mRNA COVID-19 vaccination 32 adult patients previously diagnosed with iTTP by means of weekly monitoring of complete blood count and ADAMTS13 testing. Thirty of 32 patients received at least one dose of Pfizer-BioNTech, the remaining two received Moderna. A total of five patients, all vaccinated with Pfizer-BioNTech, had a biochemical relapse at a median post-vaccination time of 15 days following the second or third vaccine dose, presenting without measurable ADAMTS13 activity and a median anti- ADAMTS13 autoantibody value of 34 U/mL. Four of five cases had concomitant clinical relapse and were treated with corticosteroids alone or daily sessions of plasma exchange and caplacizumab, while one patient was closely monitored with ADAMTS13 with no onset of anemia and thrombocytopenia. Although the benefits of vaccination exceed its potential risks, clinicians should be aware that iTTP relapse might follow COVID-19 vaccination. Therefore, laboratory and clinical monitoring of iTTP patients should be done in the first post-vaccination month, in order to promptly diagnose and treat any relapse.

Published

2022

26. Polymeric Nanocapsules Containing Fennel Essential Oil: Their Preparation, Physicochemical Characterization, Stability over Time and in Simulated Gastrointestinal Conditions.

Author

Granata G, Riccobene C, Napoli E, and Geraci C

Abstract

Plant essential oils, a source of biologically active compounds, represent a promising segment in the pharmaceutical market. However, their volatility, hydrophobicity, poor stability, and low toxicity limit direct use in pharmaceutical-related applications. Nanoencapsulation is a technique that allows overcoming these obstacles by improving bioaccessibility and bioavailability. Nanocapsules (NCs) based on biodegradable and biocompatible poly(ɛ-caprolactone) containing Foeniculum vulgare Mill. essential oil (FEO), known for its biological activities, were successfully prepared by interfacial deposition of the preformed polymer method. The composition of FEO ( trans -anethole chemotype) was determined by gas chromatography analyses. The FEO presence inside the NCs was confirmed by nuclear magnetic resonance experiments. The FEO-NCs showed nanometer size (210 nm), low polydispersity index (0.10), negative zeta potential (-15 mV), non-Newtonian rheological behavior, and high efficiency of encapsulation (93%). Moreover, parameters such as FEO-NC particle size, bioactive compound retention, and FEO composition were monitored for 30 days at storage temperatures of 4 and 40 °C, confirming the robustness of the nanosystem. Finally, FEO-NCs were resistant to the simulated gastric digestion and showed an effective bioaccessibility of 29% in simulated intestinal digestion. Based on the results obtained, this FEO-NC nanosystem could find interesting applications in the nutraceutical and pharmaceutical sectors.

Published

2022

27. Analysis of morphological and hemodynamical indexes in abdominal aortic aneurysms as preliminary indicators of intraluminal thrombus deposition.

Author

Colciago CM, Deparis S, Domanin M, Riccobene C, Schenone E, and Quarteroni A

Subjects

Aged, Aged, 80 and over, Algorithms, Aorta physiology, Aortic Rupture physiopathology, Cluster Analysis, Computer Simulation, Finite Element Analysis, Hemodynamics, Humans, Linear Models, Male, Models, Anatomic, Models, Cardiovascular, Risk, Shear Strength, Stress, Mechanical, Aorta, Abdominal physiopathology, Aortic Aneurysm, Abdominal physiopathology, Thrombosis physiopathology

Abstract

In this paper, we study the correlation between the wall shear stress, a hemodynamical index derived from numerical simulations, and an new index MFA-ILT for the characterization of intraluminal thrombus (ILT) in the presence of abdominal aortic aneurysms. Based on the processing of medical images, we define our index MFA-ILT by projecting onto lumen surface a measure of the ILT thickness. From the physical point of view, hemodynamical indexes describe the mechanical stimuli at which the luminal surface of the vessel wall is subject to, due to blood flow. Specifically, we consider the time-averaged wall shear stress and the oscillatory shear index. The first index provides a measurement of the averaged magnitude of the shear stress; the second index measures the rate of change of shear stress. To reconstruct the hemodynamical indexes, we build in silico three-dimensional models. We use the same physical parameters and boundary conditions for all the aneurysms in the sample. The computer simulations do not require any additional invasive patient examination. We consider eleven cases of abdominal aortic aneurysms spanning a wide range of different morphological features. All the cases are characterized by a thin intraluminal thrombus. We can, therefore, assume that the lumen we currently observe does not significantly differ from the one before the thrombus deposition. Our results suggest that the value of wall shear stresses and intraluminal thrombus deposition are correlated. Moreover, we conclude that in six cases time-averaged wall shear stress provides a preliminary indication of the area at risk of thrombus deposition.

Published

2020

28. AngioLab--a software tool for morphological analysis and endovascular treatment planning of intracranial aneurysms.

Author

Larrabide I, Villa-Uriol MC, Cárdenes R, Barbarito V, Carotenuto L, Geers AJ, Morales HG, Pozo JM, Mazzeo MD, Bogunović H, Omedas P, Riccobene C, Macho JM, and Frangi AF

Subjects

Computer Graphics, Humans, Models, Anatomic, User-Computer Interface, Intracranial Aneurysm pathology, Intracranial Aneurysm therapy, Software

Abstract

Determining whether and how an intracranial aneurysm should be treated is a tough decision that clinicians face everyday. Emerging computational tools could help clinicians analyze clinical data and make these decisions. AngioLab is a single graphical user interface, developed on top of the open source framework GIMIAS, that integrates some of the latest image analysis and computational modeling tools for intracranial aneurysms. Two workflows are available: Advanced Morphological Analysis (AMA) and Endovascular Treatment Planning (ETP). AngioLab has been evaluated by a total of 62 clinicians, who considered the information provided by AngioLab relevant and meaningful. They acknowledged the emerging need of these type of tools and the potential impact they might have on the clinical decision-making process., (Copyright © 2012 Elsevier Ireland Ltd. All rights reserved.)

Published

2012

29. AngioLab: integrated technology for patient-specific management of intracranial aneurysms.

Author

Villa-Uriol MC, Larrabide I, Geers AJ, Pozo J, Bogunovic H, Mazzeo M, Omedas P, Barbarito V, Carotenuto L, Riccobene C, Planes X, Martelli Y, and Frangi AF

Subjects

Computer Simulation, Humans, Patient Care Planning, Intracranial Aneurysm, Software

Abstract

AngioLab is a software tool developed within the GIMIAS framework and is part of a more ambitious pipeline for the integrated management of cerebral aneurysms. AngioLab currently includes three plug-ins: angio segmentation, angio morphology and stenting, as well as supports advanced rendering techniques for the visualization of virtual angiographies. In December 2009, 23 clinicians completed an evaluation questionnaire about AngioLab. This activity was part of a teaching course held during the 2(nd) European Society for Minimally Invasive Neurovascular Treatment (ESMINT) Teaching Course held at the Universitat Pompeu Fabra, Barcelona, Spain. The Automated Morphological Analysis (angio morphology plug-in) and the Endovascular Treatment Planning (stenting plug-in) were evaluated. In general, the results provided by these tools were considered as relevant and as an emerging need in their clinical field.

Published

2010