no code implementations • 28 Dec 2020 • R. Arnaldi, K. Banicz, K. Borer, J. Castor, B. Chaurand, W. Chen, C. Cicalò, A. Colla, P. Cortese, S. Damjanovic, A. David, A. De Falco, A. Devaux, L. Ducroux, H. En'yo, J. Fargeix, A. Ferretti, M. Floris, A. Förster, P. Force, N. Guettet, A. Guichard, H. Gulkanian, J. M. Heuser, P. Jarron, M. Keil, L. Kluberg, Z. Li, C. Lourenço, J. Lozano, F. Manso, P. Martins, A. Masoni, A. Neves, H. Ohnishi, C. Oppedisano, P. Parracho, P. Pillot, T. Poghosyan, G. Puddu, E. Radermacher, P. Ramalhete, P. Rosinsky, E. Scomparin, J. Seixas, S. Serci, R. Shahoyan, P. Sonderegger, H. J. Specht, R. Tieulent, A. Uras, G. Usai, R. Veenhof, H. K. Wöhri
The nuclear dependence of the production cross sections of the $\eta$, $\omega$ and $\phi$ mesons has been found to be consistent with the power law $\sigma_\mathrm{pA} \propto \mathrm{A}^\alpha$, with the $\alpha$ parameter increasing as a function of $p_\mathrm{T}$ for all the particles, and an approximate hierarchy $\alpha_\eta \approx \alpha_\phi > \alpha_\omega$.
High Energy Physics - Experiment Nuclear Experiment
no code implementations • 2 Jul 2018 • C. Hadjidakis, D. Kikoła, J. P. Lansberg, L. Massacrier, M. G. Echevarria, A. Kusina, I. Schienbein, J. Seixas, H. S. Shao, A. Signori, B. Trzeciak, S. J. Brodsky, G. Cavoto, C. Da Silva, F. Donato, E. G. Ferreiro, I. Hrivnacova, A. Klein, A. Kurepin, F. Lyonnet, Y. Makdisi, C. Lorcé, S. Porteboeuf, C. Quintans, A. Rakotozafindrabe, P. Robbe, N. Topilskaya, A. Uras, J. Wagner, N. Yamanaka, Z. Yang, A. Zelenski
We review the context, the motivations and the expected performances of a comprehensive and ambitious fixed-target program using the multi-TeV proton and ion LHC beams.
High Energy Physics - Experiment High Energy Physics - Phenomenology Nuclear Experiment Nuclear Theory