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@ARTICLE{Aidala:889109,
author = {Aidala, C. A. and Bacchetta, A. and Boglione, M. and Bozzi,
G. and Carassiti, V. and Chiosso, M. and Cimino, R. and
Ciullo, Giuseppe and Contalbrigo, M. and D'Alesio, U. and Di
Nezza, P. and Engels, Ralf W. and Grigoryev, Kirill and
Keller, D. and Lenisa, Paolo and Liuti, S. and Metz, Lisa
Maria and Mulder, P. J. and Murgia, F. and Nass, Alexander
and Panzieri, D. and Pappalardo, L. L. and Pasquini, B. and
Pisano, C. and Radici, M. and Rathmann, Frank and Reggiani,
D. and Schlegel, M. and Scopetta, S. and Steffens, Jennifer
and Vasilyev, A.},
title = {{T}he {LHCS}pin {P}roject},
volume = {1},
address = {New York, N.Y.},
publisher = {Allerton Press},
reportid = {FZJ-2021-00039},
pages = {10},
year = {2018},
abstract = {LHCSpin aims at installing a polarized gas target in front
of the LHCb spectrometer, bringing, for the first time,
polarized physics to the LHC. The project will benefit from
the experience achieved with the installation of an
unpolarized gas target at LHCb during the LHC Long Shutdown
2. LHCb will then become the first experiment simultaneously
running in collider and fixed-target mode with polarized
targets, opening a whole new range of explorations to its
exceptional spectrometer. LHCSpin will offer a unique
opportunity to probe polarized quark and gluon parton
distributions in nucleons and nuclei, especially at high $x$
and intermediate $Q^2$, where experimental data are still
largely missing. Beside standard collinear parton
distribution functions (PDFs), LHCSpin will make it possible
to study multidimensional polarized parton distributions
that depend also on parton transverse momentum. The study of
the multidimensional partonic structure of the nucleon,
particularly including polarization effects, can test our
knowledge of QCD at an unprecedented level of
sophistication, both in the perturbative and nonperturbative
regime. At the same time, an accurate knowledge of hadron
structure is necessary for precision measurements of
Standard Model (SM) observables and discovery of physics
beyond the SM. Due to the intricate nature of the strong
interaction, it is indispensable to perform the widest
possible suite of experimental measurements. It will be
ideal to have two new projects complementing each other: a
new facility for polarized electron-proton collisions and a
new facility for polarized proton-proton collisions. LHCSpin
stands out at the moment as the most promising candidate for
the second type of project, going beyond the kinematic
coverage and the accuracy of the existent experiments,
especially on the heavy-quark sector.},
cin = {IKP-2},
cid = {I:(DE-Juel1)IKP-2-20111104},
pnm = {612 - Cosmic Matter in the Laboratory (POF3-612)},
pid = {G:(DE-HGF)POF3-612},
typ = {PUB:(DE-HGF)25},
url = {https://juser.fz-juelich.de/record/889109},
}
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