Winter Workshop on Recent QCD Advances at the LHC

Les Houches, February 13th - 18th, 2011

with the recent startup of operation of the Large Hadron Collider (LHC) at CERN, the physics of the strong interaction, described by the theory of Quantum Chromodynamics (QCD), explores a new territory in proton-proton (p-p) and nucleus-nucleus (Pb-Pb) collisions at energies never reached before. The topics of the workshop will be organised around the following axes:

perturbative QCD:

the study of the production of particles with high-p_T and/or large mass such as hard partons (jets), prompt photons, heavy-quarks, quarkonia or Drell-Yan pairs allows one to test perturbative QCD in its diverse approaches: collinear-factorization, k_T-factorization, colour-dipole, various logarithmic resummation techniques ... In addition one obtains valuable information about non-perturbative objects such as the parton distribution functions (PDFs) in the proton and nuclei, and parton-to-hadron fragmentation functions (FFs) in the "QCD vacuum" and "medium". matching of parton-shower Monte Carlos to fixed-order NLO approaches and perturbative calculations beyond NLO are also hot topics relevant to LHC phenomenology.

QCD in the non-perturbative regime:

an important fraction of observables in high-energy hadronic collisions ("minimum bias" multiplicity, low p_T spectra, soft diffractive scattering, "underlying event", ...) can still not be calculated within first-principles QCD. the first LHC data will be collected under luminosity conditions that will allow one to study these large cross-section processes in detail. such non-perturbative phenomena are interesting in their own right as well as backgrounds for new-physics signals.

low-x QCD:

at LHC energies, the values of the parton fractional momentum x=p_parton/p_proton probed in hadronic collisions can be as low as 10^{-6}. In such low-x regime, the effects of high parton density leading to effects such as gluon saturation and multi-parton interactions, particularly enhanced with nuclear targets, are expected to dominate the bulk of particle production. semi-hard particle production will allows us to test the boundaries of the applicability of perturbative QCD in the region where low-x gluon saturation phenomena become increasingly important.

The expected outcomes of this winter meeting are: