Autores
R Acciarri, S Bansal, A Friedland, Z Djurcic, L Rakotondravohitra, T Xin, E Mazzucato, C Densham, E Calvo, S Li, CS Mishra, MA Acero, A Zalewska, M Adamowski, NJ Spooner, N Walsh, A Palazzo, R Gran, J Stewart, G Brooijmans, T Patzak, J Navarro, K Yonehara, J Moon, RM Roser, D Girardelli, A Ankowski, V Radeka, E Tziaferi, A Topkar, P Mehta, M Wilking, O Palamara, CA Moura, J Davies, J Mousseau, L Periale, H Sobel, M Thomson, DA Dwyer, T Usher, C Jackson, T Gamble, S Golapinni, K Riesselmann, T Haines, M Chen, P de Jong, C Rudolph von Rohr, A Rappoldi, J Musser, J Valle, M Cascella, L Suter, D Lee, B Zamorano, M Vagins, N Mokhov, H Duyang, A Kostelecky, P Shanahan, J Osta, S Yang, YA Ramachers, E Amador, W Marciano, J Schneps, L Paulucci, J Joshi, R Mohanta, T Hamernik, I Stancu, J Park, J Johnstone, C Regenfus, J Heise, K Lee, D Whittington, L Rochester, F Sanchez, TV Vieira, D Stefan, S Malhotra, E Pennacchio, X Qian, SL Manly, D Malon, T Grundy, R Petti, M Worcester, N McConkey, R Bernstein, M Kirby, DE Jaffe, S Soldner-Rembold, T Boone, K Yarritu, A Weber, A Perch, S Elliott, X Bu, C Vilela, R Schmitt, W Kropp, BR Behera, M Elnimr, M Bergevin, AT Habig, R Talaga, B Yu, G Raffelt, R Rucinski, B Kayser, C Bromberg, R Corey, F Noto, S Stoica, J Anderson, K Hennessy, S Pakvasa, J Libo, S Striganov, D Mertins, V Guarino, X Li, E Pantic, Z Ahmad, M Torti, A Farbin, M Headley, N Benekos, A Aranda Fernandez, V Bocean, R Nichol, J Fowler, J Beacom, H Schellman, L Littenberg, T Miao, C Mariani, Y Meng, C James, S Jimenez, P Vahle, H O'Keeffe, E Kemp, M Rossella, N Barros, G Barr, J Maricic
Fecha de publicación
2016/1/20
Número
FERMILAB-DESIGN-2016-01
Descripción
During the last decade, several independent worldwide efforts have attempted to develop paths towards a next-generation long-baseline neutrino experiment, including in the US with LBNE, in Europe with LBNO and in Japan with Hyper-Kamiokande. The community has generally recognized that putting in place the conditions necessary to execute this challenging science program in a comprehensive way requires previously independent efforts to converge.
In this context, the Deep Underground Neutrino Experiment (DUNE) represents the convergence of a substantial fraction of the worldwide neutrino-physics community around the opportunity provided by the large investment planned by the US Department of Energy (DOE) to support a significant expansion of the underground infrastructure at the Sanford Underground Research Facility (SURF) in South Dakota, 1300km from Fermilab, and to create a megawatt neutrinobeam facility at Fermilab by 2026. The PIP-II accelerator upgrade [1] at Fermilab will drive the new neutrino beamline at Fermilab with a beam power 1 of up to 1.2 MW, with a planned upgrade of the accelerator complex to enable it to provide up to 2.4 MW of beam power by 2030.
Artículos de Google Académico
R Acciarri, S Bansal, A Friedland, Z Djurcic… - 2016
R Acciarri, MA Acero, M Adamowski, C Adams… - arXiv preprint arXiv:1601.02984, 2016
D Collaboration, R Acciarri, MA Acero, M Adamowski… - 2016
