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Related papers: The LHCSpin Project

200 papers

The goal of the LHCspin project is to develop innovative solutions for measuring the 3D structure of nucleons in high-energy polarized fixed-target collisions at LHC, exploring new processes and exploiting new probes in a unique, previously…

The goal of LHCspin is to develop, in the next few years, innovative solutions and cutting-edge technologies to access spin physics in polarised fixed-target collisions at high energy, exploring the unique kinematic regime offered by LHC…

High Energy Physics - Experiment · Physics 2021-11-09 M. Santimaria , V. Carassiti , G. Ciullo , P. Di Nezza , P. Lenisa , S. Mariani , L. L. Pappalardo , E. Steffens

LHCspin aims to upgrade the recently installed unpolarized gas target (SMOG2) in front of the LHCb spectrometer to a polarised one. This task requires, in the next few years, innovative solutions and cutting-edge technologies, and will…

High Energy Physics - Experiment · Physics 2021-11-19 P. Di Nezza , V. Carassiti , G. Ciullo , P. Lenisa , L. L. Pappalardo , M. Santimaria , E. Steffens , G. Tagliente

Broad and unexplored kinematic regions can be accessed at the LHC with fixed-target $pp$, $pA$ and $PbA$ collisions at $\sqrt{s_{\rm{NN}}}=72-115~\rm{GeV}$. The LHCb detector is a fully-instrumented forward spectrometer able to run in…

High Energy Physics - Experiment · Physics 2022-08-09 M. Santimaria , V. Carassiti , G. Ciullo , P. Di Nezza , P. Lenisa , S. Mariani , L. L. Pappalardo , E. Steffens

The goal of LHCspin is to develop, in the next few years, innovative solutions and cutting-edge technologies to access spin physics in polarised fixed-target collisions at high energy, exploring the unique kinematic regime offered by LHC…

High Energy Physics - Experiment · Physics 2022-10-26 M. Santimaria , V. Carassiti , G. Ciullo , P. Di Nezza , P. Lenisa , S. Mariani , L. L. Pappalardo , E. Steffens

Since 2017, the LHCSpin study group is investigating the installation of a HERMES-type polarized gas target (PGT) in front of the LHCb detector in order to perform Single-Spin Transverse Asymmetry (SSTA) measurements. In cooperation with…

The multi-TeV proton and ion beams of the LHC would allow for the most energetic fixed-target experiment ever. In particular, $pp$, $p$d and $p$A collisions could be performed at $\sqrt{s_{NN}}$ = 115~GeV, as well as Pb$p$ and PbA…

We report on the opportunities for spin physics and Transverse-Momentum Dependent distribution (TMD) studies at a future multi-purpose fixed-target experiment using the proton or lead ion LHC beams extracted by a bent crystal. The LHC…

Colliding beams of 70% polarized protons at up to $\sqrt{s}$=500 GeV, with high luminosity, L=2$\times10^{{\rm 32}}$ cm$^{-2}$sec$^{-1}$, will represent a new and unique laboratory for studying the proton. RHIC-Spin will be the first…

High Energy Physics - Phenomenology · Physics 2008-11-26 Gerry Bunce , Naohito Saito , Jacques Soffer , Werner Vogelsang

The recently installed internal gas target at LHCb presents exceptional opportunities for an extensive physics program for heavy-ion, hadron, spin, and astroparticle physics. A storage cell placed in the LHC primary vacuum, an advanced Gas…

The LHCb experiment has the unique possibility, among the LHC experiments, to be operated in fixed target mode, using its internal gas target. The energy scale achievable at the LHC, combined with the LHCb forward geometry and detector…

High Energy Physics - Experiment · Physics 2017-05-17 Giacomo Graziani

We review how RHIC is expected to deepen our understanding of the spin structure of longitudinally polarized nucleons. After briefly outlining the current status of spin-dependent parton densities and pointing out open questions, we focus…

High Energy Physics - Phenomenology · Physics 2009-11-07 Marco Stratmann

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 ever and to study $pp$, $p$d and $p$A collisions at…

The latest results obtained by the LHCb collaboration from heavy-ion and fixed-target collisions recorded during the Run 2 LHC data-taking are presented. They mainly focus on heavy hadron production for varying nuclear collision systems,…

High Energy Physics - Experiment · Physics 2025-05-19 Daniele Marangotto

We review a number of ideas put forward in favour of the use of a polarised target along with the proposed idea of a fixed-target experiment using the LHC beams -- AFTER@LHC. A number of recent studies have shown that single transverse-spin…

We discuss our studies of polarized parton distributions which are related to the RHIC-Spin project. First, the parametrization of unpolarized parton distributions is explained as an introduction to general audience. Second, activities of…

High Energy Physics - Phenomenology · Physics 2007-05-23 S. Kumano

Measurements of polarized electron-nucleon scattering can be realized at the TESLA linear collider facility with projected luminosities that are about two orders of magnitude higher than those expected of other experiments at comparable…

A very promising spin physics programme will be soon on the way at the BNL Relativistic Heavy Ion Collider (RHIC). By studying the spin asymmetries for various processes (single photon, single-jet and $W^{\pm}$ production), we will compare…

High Energy Physics - Phenomenology · Physics 2009-10-30 J. Soffer , J. -M. Virey

The completion of Run 1 of the CERN Large Hadron Collider has seen the discovery of the Higgs boson and an unprecedented number of precise measurements of the Standard Model, while Run 2 operation has just started to provide first data at…

High Energy Physics - Experiment · Physics 2016-11-23 Pierluigi Campana , Markus Klute , Pippa Wells

The future opportunities for high-density QCD studies with ion and proton beams at the LHC are presented. Four major scientific goals are identified: the characterisation of the macroscopic long wavelength Quark-Gluon Plasma (QGP)…

High Energy Physics - Phenomenology · Physics 2019-02-26 Z. Citron , A. Dainese , J. F. Grosse-Oetringhaus , J. M. Jowett , Y. -J. Lee , U. A. Wiedemann , M. Winn , A. Andronic , F. Bellini , E. Bruna , E. Chapon , H. Dembinski , D. d'Enterria , I. Grabowska-Bold , G. M. Innocenti , C. Loizides , S. Mohapatra , C. A. Salgado , M. Verweij , M. Weber , J. Aichelin , A. Angerami , L. Apolinario , F. Arleo , N. Armesto , R. Arnaldi , M. Arslandok , P. Azzi , R. Bailhache , S. A. Bass , C. Bedda , N. K. Behera , R. Bellwied , A. Beraudo , R. Bi , C. Bierlich , K. Blum , A. Borissov , P. Braun-Munzinger , R. Bruce , G. E. Bruno , S. Bufalino , J. Castillo Castellanos , R. Chatterjee , Y. Chen , Z. Chen , C. Cheshkov , T. Chujo , Z. Conesa del Valle , J. G. Contreras Nuno , L. Cunqueiro Mendez , T. Dahms , N. P. Dang , H. De la Torre , A. F. Dobrin , B. Doenigus , L. Van Doremalen , X. Du , A. Dubla , M. Dumancic , M. Dyndal , L. Fabbietti , E. G. Ferreiro , F. Fionda , F. Fleuret , S. Floerchinger , G. Giacalone , A. Giammanco , P. B. Gossiaux , G. Graziani , V. Greco , A. Grelli , F. Grosa , M. Guilbaud , T. Gunji , V. Guzey , C. Hadjidakis , S. Hassani , M. He , I. Helenius , P. Huo , P. M. Jacobs , P. Janus , M. A. Jebramcik , J. Jia , A. P. Kalweit , H. Kim , M. Klasen , S. R. Klein , M. Klusek-Gawenda , M. Konyushikhin , J. Kremer , G. K. Krintiras , F. Krizek , E. Kryshen , A. Kurkela , A. Kusina , J. -P. Lansberg , R. Lea , M. van Leeuwen , W. Li , J. Margutti , A. Marin , C. Marquet , J. Martin Blanco , L. Massacrier , A. Mastroserio , E. Maurice , C. Mayer , C. Mcginn , G. Milhano , A. Milov , V. Minissale , C. Mironov , A. Mischke , N. Mohammadi , M. Mulders , M. Murray , M. Narain , P. Di Nezza , A. Nisati , J. Noronha-Hostler , A. Ohlson , V. Okorokov , F. Olness , P. Paakkinen , L. Pappalardo , J. Park , H. Paukkunen , C. C. Peng , H. Pereira Da Costa , D. V. Perepelitsa , D. Peresunko , M. Peters , N. E. Pettersson , S. Piano , T. Pierog , J. Pires , M. PS. Plumari , F. Prino , M. Puccio , R. Rapp , K. Redlich , K. Reygers , C. L. Ristea , P. Robbe , A. Rossi , A. Rustamov , M. Rybar , M. Schaumann , B. Schenke , I. Schienbein , L. Schoeffel , I. Selyuzhenkov , A. M. Sickles , M. Sievert , P. Silva , T. Song , M. Spousta , J. Stachel , P. Steinberg , D. Stocco , M. Strickland , M. Strikman , J. Sun , D. Tapia Takaki , K. Tatar , C. Terrevoli , A. Timmins , S. Trogolo , B. Trzeciak , A. Trzupek , R. Ulrich , A. Uras , R. Venugopalan , I. Vitev , G. Vujanovic , J. Wang , T. W. Wang , R. Xiao , Y. Xu , C. Zampolli , H. Zanoli , M. Zhou , Y. Zhou
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