27 research outputs found
Towards Extraction of and cross-sections from Charge Exchange Processes at the LHC
We study the possibilities to analyse the data on leading neutrons production
at first LHC runs. These data could be used to extract from it and
cross-sections. In this note we estimate relative contributions of
, and reggeons to charge exchanges and discuss related
problems of measurements.Comment: 8 pages, 9 figures, to be publishe
Elastic and scattering at LHC
We discuss the possibility of measuring leading neutron production at the
LHC. These data could be used to extract from it and
cross-sections. In this note we give some estimates for the case of elastic
cross-sections and discuss related problems and prospects.Comment: 26 pages, 25 figures, to be published, minor text correction
On asimuthal anisotropy in fragmentation of classical relativistic string
A fragmenting relativistic string is widely used for modelling particle
production via quark-gluon strings formed in hadron inelastic interactions of
high energies. In this note we focus on motion and fragmentation of
relativistic string with non-zero transverse separation of its ends and study
this scenario as a possible mechanism bringing anisotropy into the asimuthal
angle disribution of produced particles in inelastic interactions of hadrons.Comment: 12 pages, 6 figure
LHC as and Collider
We propose an experiment at the LHC with leading neutron production.The
latter can be used to extract from it the total cross-sections. With
two leading neutrons we can get access to the total
cross-sections. In this note we give some estimates and discuss related
problems and prospects.Comment: 22 pages, 18 figures, 8 tables, to be publishe
All-loop calculation of the Reggeon field theory amplitudes via stochastic model
The evolution equations for Green functions of the Reggeon Field Theory (RFT)
are equivalent to those of the inclusive distributions for the
reaction-diffusion system of classical particles. We use this equivalence to
obtain numerically Green functions and amplitudes of the RFT with all loop
contributions included. The numerical realization of the approach is described
and some important applications including total and elastic proton--proton
cross sections are studied. It is shown that the loop diagram contribution is
essential but can be imitated in the eikonal cross section description by
changing the Pomeron intercept. A role of the quartic Pomeron coupling which is
an inherent part of the stochastic model is shown to be negligible for
available energies.Comment: In v2: discussion extended and one new figure added within section 4.
References added in sections 1 and
Can We Get Deeper Inside the Pion at the LHC?
We propose a measurement of leading neutrons spectra at LHC in order to
extract inclusive and cross-sections with high
jets production. The cross-sections for these processes are simulated with the
use of parton distributions in hadrons. In this work we estimate the
possibility to extract parton distributions in the pion from the data on these
cross-sections and also search for signatures of fundamental differences in the
pion and proton structure.Comment: 14 pages, 9 figures, to be published elsewhere, minor correction
Elliptic flow from color strings
It is shown that the elliptic flow can be successfully described in the color
string picture with fusion and percolation provided anisotropy of particle
emission from the fused string is taken into account. Two possible sources of
this anisotropy are considered, propagation of the string in the transverse
plane and quenching of produced particles in the strong color field of the
string. Calculations show that the second source gives an overwhelming
contribution to the flow at accessible energies.Comment: 23 pages, 11 figure
Survival probability of large rapidity gaps in QCD and N=4 SYM motivated model
In this paper we present a self consistent theoretical approach for the
calculation of the Survival Probability for central dijet production . These
calculations are performed in a model of high energy soft interactions based on
two ingredients:(i) the results of N=4 SYM, which at the moment is the only
theory that is able to deal with a large coupling constant; and (ii) the
required matching with high energy QCD. Assuming, in accordance with these
prerequisites, that soft Pomeron intercept is rather large and the slope of the
Pomeron trajectory is equal to zero, we derive analytical formulae that sum
both enhanced and semi-enhanced diagrams for elastic and diffractive
amplitudes. Using parameters obtained from a fit to the available experimental
data, we calculate the Survival Probability for central dijet production at
energies accessible at the LHC. The results presented here which include the
contribution of semi-enhanced and net diagrams, are considerably larger than
our previous estimates.Comment: 11 pages, 10 pictures in .eps file
Nuclear shadowing in Glauber-Gribov theory with Q2-evolution
We consider deep inelastic scattering off nuclei in the Regge limit within
the Glauber-Gribov model. Using unitarized parton distribution functions for
the proton, we find sizeable shadowing effects on the nuclear total and
longitudinal structure functions, and , in the low-x limit.
Extending a fan-diagram analysis for the large-mass region of coherent
diffraction off nuclei to high Q2, we also find significant shadowing effects
in this kinematical regime. Finally, we discuss shortcomings of our approach
and possible extensions of the model to other kinematical regimes.Comment: 16 pages, 9 figure
Estimates of hadron azimuthal anisotropy from multiparton interactions in proton-proton collisions at sqrt(s) = 14 TeV
We estimate the amount of collective "elliptic flow" expected at mid-rapidity
in proton-proton (p-p) collisions at the CERN Large Hadron Collider (LHC),
assuming that any possible azimuthal anisotropy of the produced hadrons with
respect to the plane of the reaction follows the same overlap-eccentricity and
particle-density scalings as found in high-energy heavy ion collisions. Using a
Glauber eikonal model, we compute the p-p eccentricities, transverse areas and
particle-multiplicities for various phenomenological parametrisations of the
proton spatial density. For realistic proton transverse profiles, we find
integrated elliptic flow v2 parameters below 3% in p-p collisions at sqrt(s) =
14 TeV.Comment: 17 pages, 9 figures. Very minor mods. Version to appear in EPJ-