Optical Model for Diffraction Dissociation

1 December 1971

journal article
research article
Published by American Physical Society (APS) in Physical Review D

Vol. 4 (11) , 3482-3487
https://doi.org/10.1103/physrevd.4.3482

Abstract

The "Deck effect" is generalized to include multiple scattering, which should be important in diffractive dissociation on nuclear targets. A simple and intuitively appealing optical (eikonal) representation is given. On the basis of this representation, it is conjectured that form-factor effects should be included as a function of the distance off the energy shell in old-fashioned perturbation theory, at "infinite" momentum, rather than as a function of the distance off the mass shell, as in the usual double-Regge models. Ways to test this conjecture are discussed, and a procedure is given for including absorptive effects in 2 → 3 processes.

Keywords

This publication has 28 references indexed in Scilit:

Diffraction Dissociation and the Reaction $γ p \to π^{+} π^{-} p$
Physical Review D, 1970
Reggeized Double-Peripheral-Model Analysis of Three-Body Final-State Processes: Application topp→pπ−Δ++at 28.5 GeV/cand other Reactions
Physical Review B, 1969
Double-Regge-Pole Model Analysis of $pp \to pn π^{+}$ at 28.5 GeV/c; Pion Exchange and the 1400-MeV $π N$ Enhancement
Physical Review Letters, 1968
ReggeizedπρMass Enhancement in theA1Region
Physical Review B, 1968
Nonresonant Production Amplitudes or the Deck Effect
Physical Review Letters, 1967
Nonresonant Production Amplitudes or the Deck Effect
Physical Review Letters, 1967
Kinematical Interpretation of the First $π - p$ Resonance
Physical Review Letters, 1964
Quasi-Elastic Peak in High-Energy Nucleon-Nucleon Scattering
Physical Review Letters, 1961
Diffraction Dissociation of Beam Particles
Physical Review B, 1960
Deuteron Stripping Processes at High Energies
Physical Review B, 1955