Laure Marie Massacrier

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Featured researches published by Laure Marie Massacrier.

arXiv: High Energy Physics - Experiment | 2015

Spin physics and TMD studies at A Fixed-Target ExpeRiment at the LHC (AFTER@LHC)

Jean-Philippe Lansberg; M. Anselmino; R. Arnaldi; Stanley J. Brodsky; V. Chambert; W. den Dunnen; J. P. Didelez; B. Genolini; E.G. Ferreiro; F. Fleuret; Yuanning Gao; C. Hadjidakis; I. Hrvinacova; C. Lorcé; Laure Marie Massacrier; R. Mikkelsen; Cristian Pisano; A. Rakotozafindrabe; P. Rosier; I. Schienbein; Marc Schlegel; E. Scomparin; B. Trzeciak; U.I. Uggerhøj; R. Ulrich; Zishuo Yang

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 multi-TeV beams allow for the most energetic fixed-target experiments ever performed, opening new domains of particle and nuclear physics and complementing that of collider physics, in particular that of RHIC and the EIC projects. The luminosity achievable with AFTER@LHC using typical targets would surpass that of RHIC by more that 3 orders of magnitude in a similar energy region. In unpolarised proton-proton collisions, AFTER@LHC allows for measurements of TMDs such as the Boer-Mulders quark distributions, the distribution of unpolarised and linearly polarised gluons in unpolarised protons. Using the polarisation of hydrogen and nuclear targets, one can measure transverse single-spin asymmetries of quark and gluon sensitive probes, such as, respectively, Drell-Yan pair and quarkonium production. The fixed-target mode has the advantage to allow for measurements in the target-rapidity region, namely at large x^uparrow in the polarised nucleon. Overall, this allows for an ambitious spin program which we outline here.

arXiv: Nuclear Experiment | 2016

Studies of Transverse-Momentum-Dependent distributions with A Fixed-Target ExpeRiment using the LHC beams (AFTER@LHC)

Laure Marie Massacrier; P. Rosier; Cristian Pisano; B. Trzeciak; Stanley J. Brodsky; M. Anselmino; W. Den Dunnen; F. Fleuret; R. Arnaldi; R. Mikkelsen; Jean-Philippe Lansberg; Yuanning Gao; J. P. Didelez; Zishuo Yang; E. Scomparin; C. Lorcé; V. Chambert; B. Genolini; R. Ulrich; I. Hřivnáčová; C. Hadjidakis; Marc Schlegel; I. Schienbein; U.I. Uggerhøj; E.G. Ferreiro; A. Rakotozafindrabe

We report on the studies of Transverse-Momentum-Dependent distributions (TMDs) at a future fixed-target experiment –AFTER@LHC– using the p+ or Pb ion LHC beams, which would be the most energetic fixed-target experiment ever performed. AFTER@LHC opens new domains of particle and nuclear physics by complementing collider-mode experiments, in particular those of RHIC and the EIC projects. Both with an extracted beam by a bent crystal or with an internal gas target, the luminosity achieved by AFTER@LHC surpasses that of RHIC by up to 3 orders of magnitude. With an unpolarised target, it allows for measurements of TMDs such as the Boer-Mulders quark distributions and the distribution of unpolarised and linearly polarised gluons in unpolarised protons. Using polarised targets, one can access the quark and gluon Sivers TMDs through single transverse-spin asymmetries in Drell-Yan and quarkonium production. In terms of kinematics, the fixed-target mode combined with a detector covering ηlab ∈ [1, 5] allows one to measure these asymmetries at large x↑ in the polarised nucleon.

Few-body Systems | 2017

Feasibility Studies for Single Transverse-Spin Asymmetry Measurements at a Fixed-Target Experiment Using the LHC Proton and Lead Beams (AFTER@LHC)

D. P. Kikola; Miguel G. Echevarria; C. Hadjidakis; Jean-Philippe Lansberg; Cédric Lorcé; Laure Marie Massacrier; Catarina Marques Quintans; Andrea Signori; B. A. Trzeciak

The measurement of Single Transverse-Spin Asymmetries,

Journal of Cosmology and Astroparticle Physics | 2016

Study of cosmic ray events with high muon multiplicity using the ALICE detector at the CERN Large Hadron Collider

Jaroslav Adam; R. Vernet; I. Belikov; B. Hippolyte; C. Kuhn; A. Maire; L. Molnar; F. Rami; C. Roy; V. Barret; N. Bastid; A. Batista Camejo; Philippe Crochet; P. Dupieux; V. J. G. Feuillard; Shuang Li; X. Lopez; F. Manso; S. Porteboeuf-Houssais; P. Rosnet; B. Vulpescu; L. Aphecetche; B. Audurier; G. Batigne; B. Erazmus; M. Estienne; Marie Germain; J. Martin Blanco; G. Martínez García; Laure Marie Massacrier

Few-body Systems | 2017

Heavy-Ion Physics at a Fixed-Target Experiment Using the LHC Proton and Lead Beams (AFTER@LHC): Feasibility Studies for Quarkonium and Drell–Yan Production

B. A. Trzeciak; C. L. Da Silva; E. G. Ferreiro; C. Hadjidakis; D. P. Kikola; Jean-Philippe Lansberg; Laure Marie Massacrier; J. Seixas; A. Uras; Z. Yang

A_N

arXiv: High Energy Physics - Experiment | 2016

Single-Transverse-Spin-Asymmetry studies with a fixed-target experiment using the LHC beams (AFTER@LHC)

Jean-Philippe Lansberg; M. Anselmino; R. Arnaldi; S.J. Brodsky; V. Chambert; C. Da Silva; J.P. Didelez; M.G. Echevarria; E. G. Ferreiro; F. Fleuret; Y. Gao; B. Genolini; C. Hadjidakis; I. Hřivnáčová; D. P. Kikola; Anthony Klein; A. Kurepin; A. Kusina; C. Lorcé; F. Lyonnet; Laure Marie Massacrier; A. Nass; C. Pisano; P. Robbe; Ingo Schienbein; M. Schlegel; E. Scomparin; J. Seixas; H.S. Shao; Andrea Signori

Proceedings of XVIth International Workshop in Polarized Sources, Targets, and Polarimetry — PoS(PSTP2015) | 2016

Physics case for a polarised target for AFTER@LHC

Jean-Philippe Lansberg; M. Anselmino; R. Arnaldi; Stanley J. Brodsky; Valérie Chambert; Jean-Pierre Didelez; Miguel G. Echevarria; E. G. Ferreiro; F. Fleuret; Yuanning Gao; Bernard Genolini; C. Hadjidakis; Ivana Hrivnacova; D. P. Kikola; A. Kurepin; C. Lorce; Laure Marie Massacrier; Alexander Nass; Christian Pisano; Ingo Schienbein; Marc Schlegel; Enrico Scomparin; Joao Seixas; Andrea Signori; Erhard Steffens; Nataliya Serafimovna Topilskaya; B. A. Trzeciak; Ulrik Uggerhoej; Antonio Uras; Ralf Matthias Ulrich

AN, for various quarkonium states and Drell–Yan lepton pairs can shed light on the orbital angular momentum of quarks and gluons, a fundamental ingredient of the proton-spin puzzle. The AFTER@LHC proposal combines a unique kinematic coverage and large luminosities thanks to the Large Hadron Collider beams to deliver precise measurements, complementary to the knowledge provided by collider experiments such as at RHIC. In this paper, we report on sensitivity studies for

Physics of Plasmas | 2018

A Fixed-Target Programme at the LHC: Physics Case and Projected Performances for Heavy-Ion, Hadron, Spin and Astroparticle Studies

C. Hadjidakis; A. Kusina; C. Da Silva; F. Lyonnet; A. Uras; P. Robbe; S. Porteboeuf; Y. Makdisi; B. A. Trzeciak; S.J. Brodsky; C. Quintans; N. Topilskaya; J. Wagner; N. Yamanaka; Jean-Philippe Lansberg; Anthony Klein; Z. Yang; W. Scandale; Ingo Schienbein; A. Zelenski; C. Lorcé; F. Donato; I. Hřivnáčová; G. Cavoto; M.G. Echevarria; A. Rakotozafindrabe; H.S. Shao; J. Seixas; A. Kurepin; Andrea Signori

17th International Conference on Strangeness in Quark Matter | 2018

Physics perspectives with AFTER@LHC (A Fixed Target ExpeRiment at LHC)

Laure Marie Massacrier; M. Anselmino; R. Arnaldi; S.J. Brodsky; V. Chambert; C. L. Da Silva; J.P. Didelez; Miguel G. Echevarria; E. G. Ferreiro; F. Fleuret; Y. Gao; B. Genolini; C. Hadjidakis; I. Hřivnáčová; D. P. Kikola; A. Klein; A. Kurepin; A. Kusina; Jean-Philippe Lansberg; C. Lorcé; F. Lyonnet; G. Martinez; A. Nass; C. Pisano; P. Robbe; Ingo Schienbein; Marc Schlegel; Enrico Scomparin; J. Seixas; H.S. Shao

J/\psi

arXiv: High Energy Physics - Experiment | 2016