Modeling pion and proton total cross-sections at LHC

Grau, A.; Pancheri, G.; Shekhovtsova, O.; Srivastava, Y. N.

doi:10.1016/j.physletb.2010.08.078

Cited by 10 publications

(25 citation statements)

References 47 publications

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“…Notice that for pion cross sections, the onset of the high energy region may be considered to start earlier, as one can see from a compilation of ππ and π p total cross sections, shown in Fig. 34 from [149]. In this figure, the overlaid curves correspond to the same model as in Fig.…”

Section: Theoretical Scenarios and Phenomenological Applicationsmentioning

confidence: 91%

“…In this regime, partons of momentum p = x P h are extracted from a hadron of momentum P h with a 1/x spectrum and scatter into final state partons of transverse moment p t , with a strength calculable through Fig. 34 Proton and pion total cross sections, as indicated, from [149].…”

Section: Theoretical Scenarios and Phenomenological Applicationsmentioning

confidence: 99%

“…Reprinted from [149], ©(2010) with permission from Elsevier the asymptotic freedom expression for the strong coupling constant, given to lowest order as…”

Section: Theoretical Scenarios and Phenomenological Applicationsmentioning

confidence: 99%

“…It also appears that when performing a parametrisation of the low energy contribution, the hard part plays a role to ameliorate the overall description, from low to hard energies. Examples of these two different procedures can be found in our application of the BN model to pion scattering [149] and to studies of inelastic cross section at LHC7 [41]. In addition, from a microscopic point of view, mini-jets are the only pQCD phenomenon to which one can ascribe the drive of the rise of the total cross section.…”

Section: Bloch and Nordsieck Inspired Model For The Total Cross Sectionmentioning

confidence: 99%

“…[94], the first of these two low energy parametrisations has the same expression for A(b, s) as in the hard pQCD calculation, except that the value of q max is chosen ad hoc to reproduce the low-energy data. The second parametrisation is self explaining, and we have started using it when describing π -p and ππ scattering [149]. Then the elastic and the inelastic total cross sections follow from the usual formulae.…”

Section: Bloch and Nordsieck Inspired Model For The Total Cross Sectionmentioning

confidence: 99%

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Introduction to the physics of the total cross section at LHC

Pancheri

Srivastava

2017

Eur. Phys. J. C

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This review describes the development of the physics of hadronic cross sections up to recent LHC results and cosmic ray experiments. We present here a comprehensive review -written with a historical perspective -about total cross sections from medium to the highest energies explored experimentally and studied through a variety of methods and theoretical models for over 60 years. We begin by recalling the analytic properties of the elastic amplitude and the theorems about the asymptotic behavior of the total cross section. A discussion of how proton-proton cross sections are extracted from cosmic rays at higher than accelerator energies and help the study of these asymptotic limits, is presented. This is followed by a description of the advent of particle colliders, through which high energies and unmatched experimental precisions have been attained. Thus the measured hadronic elastic and total cross sections have become crucial instruments to probe the so called soft part of QCD physics, where quarks and gluons are confined, and have led to test and refine Regge behavior and a number of diffractive models. As the c.m. energy increases, the total cross section also probes the transition into hard scattering describable with perturbative QCD, the so-called mini-jet region. Further tests are provided by cross section measurements of γ p, γ * p and γ * γ * for models based on vector meson dominance, scaling limits of virtual photons at high Q 2 and the BFKL formalism. Models interpolating from virtual to real photons are also tested.

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Section: Theoretical Scenarios and Phenomenological Applicationsmentioning

confidence: 91%

Section: Theoretical Scenarios and Phenomenological Applicationsmentioning

confidence: 99%

“…Reprinted from [149], ©(2010) with permission from Elsevier the asymptotic freedom expression for the strong coupling constant, given to lowest order as…”

Section: Theoretical Scenarios and Phenomenological Applicationsmentioning

confidence: 99%

Section: Bloch and Nordsieck Inspired Model For The Total Cross Sectionmentioning

confidence: 99%

Section: Bloch and Nordsieck Inspired Model For The Total Cross Sectionmentioning

confidence: 99%

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Introduction to the physics of the total cross section at LHC

Pancheri

Srivastava

2017

Eur. Phys. J. C

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Asymptotic behaviour of pion-pion total cross-sections

Greynat¹,

Rafael

Vulvert

2014

J. High Energ. Phys.

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We derive a sum rule which shows that the Froissart-Martin bound for the asymptotic behaviour of the ππ total cross sections at high energies, if modulated by the Lukaszuk-Martin coefficient of the leading log 2 s behaviour, cannot be an optimal bound in QCD. We next compute the total cross sections for π + π − , π ± π 0 and π 0 π 0 scattering within the framework of the constituent chiral quark model (CχQM) in the limit of a large number of colours N c and discuss their asymptotic behaviours. The same ππ cross sections are also discussed within the general framework of Large-N c QCD and we show that it is possible to make an Ansatz for the isospin I = 1 and I = 0 spectrum which satisfy the FroissartMartin bound with coefficients which, contrary to the Lukaszuk-Martin coefficient, are not singular in the chiral limit and have the correct Large-N c counting. We finally propose a simple phenomenological model which matches the low energy behaviours of the σ total π ± π 0 (s) cross section predicted by the CχQM with the high energy behaviour predicted by the Large-N c Ansatz. The magnitude of these cross sections at very high energies is of the order of those observed for the pp and pp scattering total cross sections.

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