M. M. Machado scite author profile

2007

Phys. Rev. D

Results from a phenomenological analysis of W and Z hard diffractive hadroproduction at high energies are reported. Using the Regge factorization approach, we consider the recent diffractive parton density functions extracted by the H1 Collaboration at DESY-HERA. In addition, we take into account multiple Pomeron exchange corrections considering a gap survival probability factor. It is find that the ratio of diffractive to non-diffractive boson production is in good agreement with the CDF and D0 data. We make predictions which could be compared to future measurements at the LHC.

Inelastic quarkonium photoproduction in hadron-hadron interactions at LHC energies

Gonçalves

2014

Eur. Phys. J. A

In this paper we study the inelastic quarkonium photoproduction in coherent pp/pP b/P bP b interactions. Considering the ultra relativistic hadrons as a source of photons, we estimate the total h1 + h2 → h ⊗ V + X (V = J/Ψ and Υ) cross sections and rapidity distributions at LHC energies. Our results demonstrate that the experimental analysis of this process can be used to understand the underlying mechanism governing heavy quarkonium production.

Small-x neutrino–hadron structure functions within the QCD color dipole picture

2007

Physics Letters B

Heavy quark production inγPinteractions at hadronic colliders

Gonçalves

2012

Phys. Rev. D

The diffractive heavy quark cross sections are estimated considering photon-Pomeron (γIP ) interactions in hadron -hadron at RHIC, Tevatron, and CERN LHC energies. We assume the validity of the hard diffractive factorization and calculate the charm and bottom total cross sections and rapidity distributions using the diffractive parton distribution functions of the Pomeron obtained by the H1 Collaboration at DESY-HERA. Moreover, we compare our predictions with those obtained using the dipole model. We verify that this process is a good test of the different mechanisms for diffractive heavy quark production at hadron -hadron colliders.

Estimate of the single diffractive heavy quark production in heavy ion collisions at the CERN LHC

2010

Phys. Rev. D

The single diffractive cross section for heavy quarks production is calculated in next-no-leading order (NLO) for nucleus-nucleus collisions. Such processes are expected to occur at the LHC, where the nuclei involved are lead at √ s = 5.5 TeV and calcium at √ s = 6.3 TeV. We start using the hard diffractive factorization formalism, taking into account a recent experimental parameterization for the Pomeron Structure Function (DPDF). Absorptive corrections are accounted by the multiple Pomeron contributions considering a gap survival probability, where its theoretical uncertainty for nuclear collisions is discussed. We estimate the diffractive ratios for single diffraction process in nuclear coherent/incoherent collisions at the LHC.