Long range rapidity correlations in soft interaction at high energies

E. Gotsman (Tel Aviv Un); E. Levin (Tel Aviv Un.; UTFSM); U.Maor; (Tel Aviv Un.)

arXiv:1307.4925·hep-ph·June 16, 2015

Long range rapidity correlations in soft interaction at high energies

E. Gotsman (Tel Aviv Un), E. Levin (Tel Aviv Un., UTFSM), U.Maor, (Tel Aviv Un.)

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TL;DR

This paper advances the understanding of long-range rapidity correlations in high-energy soft interactions by developing a new calculation method within the BFKL Pomeron framework and comparing results with LHC data.

Contribution

It introduces a novel method for calculating two-particle correlation functions in the BFKL Pomeron calculus without Monte Carlo simulations and estimates these correlations in a soft interaction model.

Findings

01

Correlation functions calculated in the BFKL Pomeron model.

02

Estimated correlation values align with LHC multiplicity data.

03

Provides a new approach for analyzing bias events in high-energy collisions.

Abstract

In this paper we take the next step (following the successful description of inclusive hadron production) in describing the structure of the bias events without the aid of Monte Carlo codes. Two new results are presented :(i) a method for calculating the two particle correlation functions in the BFKLPomeron calculus in zero transverse dimension;and (ii) an estimation of the values of these correlations in a model of soft interactions. Comparison with the multiplicity data at the LHC is given.

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