Physics opportunities with a fixed target experiment at the LHC (AFTER@LHC)

C. Hadjidakis, M. Anselmino,Roberta Arnaldi,Stanley J. Brodsky, V. Chambert,C. L. Da Silva, J. P. Didelez,Miguel G. Echevarria,E. G. Ferreiro,François Fleuret, Yang Gao,B. Genolini,Ivana Hrivnacova,D. P. Kikola,Anthony Klein,Alexey Kurepin,Aleksander Kusina,J.P. Lansberg,Cédric Lorcé,Florian Lyonnet, German Martinez,Laure Marie Massacrier, A. Nass,C. Pisano, Patrick Robbe, I. Schienbein, M. Schlegel,Enrico Scomparin,J. Seixas,Hua-Sheng Shao,Andrea Signori, E. Steffens, L. Szymanowski,N.S. Topilskaya,Barbara Antonina Trzeciak,Ulrik I. Uggerhøj,Antonio Uras,Ralf Ulrich,Jakub Wagner,Nodoka Yamanaka, Zishuo Yang

Proceedings of XVII International Workshop on Polarized Sources, Targets & Polarimetry — PoS(PSTP2017)（2018）

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摘要

By extracting the beam with a bent crystal or by using an internal gas target, the multi-TeV proton and lead LHC beams allow one to perform the most energetic fixed-target experiments (AFTER@LHC) and to study p+p and p+A collisions at √sNN=115 GeV and Pb+p and Pb+A collisions at √sNN=72 GeV. Such studies would address open questions in the domain of the nucleon and nucleus partonic structure at high-x, quark-gluon plasma and, by using longitudinally or transversally polarised targets, spin physics. In this paper, we discuss the physics opportunities of a fixed-target experiment at the LHC and we report on the possible technical implementations of a high-luminosity experiment. We finally present feasibility studies for Drell-Yan, open heavy-flavour and quarkonium production, with an emphasis on high-x and spin physics.

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