42 research outputs found
A New Method for the Determination of the Real Part of the Hadron Elastic Scattering Amplitude at Small Angles and High Energies
A new method for the determination of the real part of the elastic scattering
amplitude is examined for high energy proton-proton elastic scattering at small
momentum transfer. This method allows us to decrease the number of model
assumptions, to obtain the real part in a narrow region of momentum transfer
and to test different models. The real part is computed at a given point t_min
near t=0 from the known Coulomb amplitude. Hence one obtains an important
constraint on the real part of the forward scattering amplitude and therefore
on the rho-parameter (measuring the ratio of the real to imaginary part of the
scattering amplitude at t=0), which can be tested at LHC.Comment: 10 pages and 5 figures. Final published form in Physics Letters
Saturation effects in pp scattering in the impact-parameter representation
The impact of unitarity is considered in different approaches to saturation
in impact-parameter space. The energy and momentum-transfer dependence of the
total and differential cross sections and of the ratio of the real to imaginary
parts of the scattering amplitude are obtained in a model that includes soft
and hard pomeron contributions, coupled to hadrons via the electromagnetic form
factor. It is shown that the hard pomeron may significantly contribute to soft
physics at the LHC. A similar conclusion can also be reached in the framework
of non-linear approaches to unitarisation of the BFKL pomeron.Comment: 3 pages, 1 figure, uses espcrc2.sty. Contribution to ``Diffraction
2004'', International Workshop on Diffraction in High-Energy Physics, Cala
Gonone, Sardinia, September 18-23, 200
Form of analyzing power and the determination of the basic parameters of hadron scattering amplitude
The determination of magnitudes of basic parameters of the high energy
elastic scattering amplitude are examined at small momentum transfers with
taking account of the Coulomb-hadron interference effects.Comment: 6 pages, LaTeX, 4 figures (files.ps), Talk at the International
Workshop "Spin and Symmetry" (Prague, Chech., 13-19 July 2000
A Gravitational Potential with Extra-dimensions and Spin Effects In Hadronic Reactions
The impact of the KK-modes in d-brane models of gravity with large
compactification radii and TeV-scale quantum gravity on the hadronic potential
at small impact parameters is examined. The effects of the gravitational
hadronic form factors obtained from the generalized parton distributions (GPDs)
on the behavior of the gravitational potential and the possible spin
correlation effects are also analysed.Comment: 13 pages, 7 figure
GPDs of the nucleons and elastic scattering at high energies
Taking into account the electromagnetic and gravitational form factors,
calculated from a new set of -dependent GPDs, a new model is built. The
real part of the hadronic amplitude is determined only through complex . In
the framework of this model the quantitative description of all existing
experimental data at GeV, including the
Coulomb range and large momentum transfers ($0.0008 \leq |t| \leq 9.75 \
^237$ TeV is made.Comment: 14 pages, 21 figures, minor corrections (slightly brush English and
removed two misprint in numbering
Unitarisation of the hard pomeron and black-disk limit at the LHC
Recent models of soft diffraction include a hard pomeron pole besides the
usual soft term. Such models violate the black-disk limit around Tevatron
energies, so that they need to be supplemented by a unitarisation scheme.
Several such schemes are considered in this letter, where we show that they
lead to a large uncertainty at the LHC. We also examine the impact of
unitarisation on various small-t observables, the slope in t of the elastic
cross section, or the ratio of the real to imaginary parts of the scattering
amplitude, leading to the conclusion that the existence of a hard pomeron in
soft scattering may be confirmed by LHC data.Comment: 15 pages, 12 figures, late
A Review of the hard pomeron in soft diffraction
We review the evidence for the presence of a hard singularity in soft forward amplitudes, and give an estimate of its trajectory and couplings
GPDs of the Nucleons and Elastic Scattering at LHC Energies
Taking into account the electromagnetic and gravitational form factors, calculated from a new set of -dependent GPDs, a new model including the soft and hard pomerons is build. In the framework of this model the ualitative description of all existing experimental data at GeV, including the Coulomb range and large momentum transfers, is obtained with only 4 free parameters. Predictions for LHC energies are made