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A fixed-target programme at the LHC for heavy-ion, hadron, spin and astroparticle physics: AFTER@LHCKikoła, D.; Brodsky, S.J.; Cavoto, G.; Da Silva, C.; Donato, F.; Echevarria, M.G.; Ferreiro, E.G.; Hadjidakis, C.; Hřivnáčová, I.; Klein, A.; Kurepin, A.; Kusina, A.; Lansberg, J.P.; Lorcé, C.; Lyonnet, F.; Makdisi, Y.; Massacrier, L.; Porteboeuf, S.; Quintans, C.; Rakotozafindrabe, A.; Robbe, P.; Scandale, W.; Schienbein, I.; Seixas, J.; Shao, H.S.; Signori, A.; Topilskaya, N.; Trzeciak, B.; Uras, A.; Wagner, J.; Yamanaka, N.; Yang, Z.; Zelenski, A.
Nuclear physics. A, 02/2019, Letnik: 982, Številka: CJournal Article
Thanks to its multi-TeV LHC proton and lead beams, the LHC complex allows one to perform the most energetic fixed-target experiments ever and to study with high precision pp, pd and pA collisions at sNN=115GeV and Pbp and PbA collisions at sNN=72GeV. We present a selection of feasibility studies for the production of quarkonia, open heavy-flavor mesons as well as light-flavor hadrons in pA and PbA collisions using the LHCb and ALICE detectors in a fixed-target mode.
