2020
DOI: 10.1140/epjc/s10052-020-7742-z
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The multilayer structure of protons

Abstract: It is argued that the dynamics of the elastic scattering of highenergy protons at intermediate transferred momenta changes with the energy increase. It evolves from the multiple scattering at the external layer for energies about 10 GeV to the double scattering at the two subsequent layers within the colliding protons for energies about 10 TeV. The problem of the unitarity is considered in this context.

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Cited by 14 publications
(12 citation statements)
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“…One new finding is that at b = 0, the elastic scattering profile, dσ/db elas increases with the incident energy very quickly beyond 13 TeV, whereas the inelastic profile decreases. These properties are also reported in [55] and [53,54], respectively. The dominance of elastic process at b = 0 with quick energy variation predicted here, together with the increasing suppression ("hollowness") of inelastic channel, certainly introduces a new clue for the role of proton structure in very high energy collisions.…”
Section: Final Commentssupporting
confidence: 63%
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“…One new finding is that at b = 0, the elastic scattering profile, dσ/db elas increases with the incident energy very quickly beyond 13 TeV, whereas the inelastic profile decreases. These properties are also reported in [55] and [53,54], respectively. The dominance of elastic process at b = 0 with quick energy variation predicted here, together with the increasing suppression ("hollowness") of inelastic channel, certainly introduces a new clue for the role of proton structure in very high energy collisions.…”
Section: Final Commentssupporting
confidence: 63%
“…Similar conjecture of the existence of a layer-structure in the proton, revealed in pp scattering at high energies, based on the observation that there is a range of nearly linear behaviour in dσ/dt, is discussed by Dremin [55] (and references therein for related work). In contrast to the above mentioned [53,54] approach, this work deals with the elastic profile.…”
Section: Models On the Space Structure Of The Protonsupporting
confidence: 62%
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“…The first extraction of the pressure distribution inside the proton has already generated over 70 citations, and inspired many theoretical papers that, among others, relate the pressure distribution to limits on deviations from general relativity at short distance [295], applications to computing the equation of state in neutron stars [296], Lattice calculations of gluon contributions to the pressure distribution [297], studies of a two-scale structure of the proton related to LHC results [298][299][300][301], computations of the proton mechanical radius [302,303], a detailed review paper [304], extensions of the concept of mechanical properties [305] and others.…”
Section: F Mapping the Energy-momentum Tensor Of Ground State Nucleons From Dvcs Datamentioning
confidence: 99%
“…However, the idea of the appearance at high energies of a hollow in the nucleon interaction region is intensively discussed, see [21][22][23] and the references therein. Irrespective of this, recent analysis [24] of the TOTEM data at 13 TeV led to the conclusion about the multilayer structure of the protons, with the spatial size of the inner layer near 0.45 fm. This value should be compared with r in Table 2.…”
Section: The Mode Of Correlated Motion Of the Partonsmentioning
confidence: 99%