no code implementations • 18 Jul 2019 • C. A. Argüelles, A. J. Aurisano, B. Batell, J. Berger, M. Bishai, T. Boschi, N. Byrnes, A. Chatterjee, A. Chodos, T. Coan, Y. Cui, A. de Gouvêa, P. B. Denton, A. De Roeck, W. Flanagan, R. P. Gandrajula, A. Hatzikoutelis, M. Hostert, B. Jones, B. J. Kayser, K. J. Kelly, D. Kim, J. Kopp, A. Kubik, K. Lang, I. Lepetic, P. Machado, C. A Moura, F. Olness, J. C. Park, S. Pascoli, S. Prakash, L. Rogers, I. Safa, A. Schneider, K. Scholberg, S. Shin, I. M. Shoemaker, G. Sinev, B. Smithers, A. Sousa, Y. Sui, V. Takhistov, J. Thomas, J. Todd, Y. -D. Tsai, Y. -T. Tsai, D. Vanegas Forero, J. Yu, C. Zhang
With the advent of a new generation of neutrino experiments which leverage high-intensity neutrino beams for precision measurements, it is timely to explore physics topics beyond the standard neutrino-related physics.
High Energy Physics - Phenomenology High Energy Physics - Experiment