Effects of Coulomb distortion and final state interaction on the fourth and fifth structure functions

We examine the question of whether the fourth and fifth structure functions (called [ital W][sub [ital L][ital T]] and [ital W][sub [ital L][ital T][prime]]) defined by the plane wave Born approximation (PWBA) for the reaction ([ital e],[ital e][prime][ital p]) are still meaningful quantities in the...

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Bibliographic Details
Published in:Physical review. C, Nuclear physics Nuclear physics, 1994-07, Vol.50 (1), p.168-176
Main Authors: Jin, Y, Onley, DS, Wright, LE
Format: Article
Language:English
Subjects:
663300 - Nuclear Reactions & Scattering, General- (1992-)
663420 - Lepton-Induced Reactions & Scattering- (1992-)
BARYONS
BORN APPROXIMATION
CHARGED-PARTICLE REACTIONS
CORRECTIONS
COULOMB CORRECTION
DIRECT REACTIONS
ELECTRON REACTIONS
ELEMENTARY PARTICLES
FERMIONS
FINAL-STATE INTERACTIONS
FUNCTIONS
HADRONS
INTERACTIONS
KNOCK-OUT REACTIONS
LEAD 208 TARGET
LEPTON REACTIONS
NUCLEAR PHYSICS AND RADIATION PHYSICS
NUCLEAR REACTIONS
NUCLEONS
OXYGEN 16 TARGET
PROTONS
QUASI-ELASTIC SCATTERING
QUASI-FREE REACTIONS
SCATTERING
STRUCTURE FUNCTIONS
TARGETS
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Summary:We examine the question of whether the fourth and fifth structure functions (called [ital W][sub [ital L][ital T]] and [ital W][sub [ital L][ital T][prime]]) defined by the plane wave Born approximation (PWBA) for the reaction ([ital e],[ital e][prime][ital p]) are still meaningful quantities in the presence of electron Coulomb distortion. For a heavy target ([sup 208]Pb), the apparent structure functions obtained in the presence of the electron Coulomb distortion have shapes (in terms of the number of maxima or minima) similar to those defined in PWBA; however, the magnitudes are changed greatly. For the fourth structure function, the distortion can change the magnitude, even for [sup 16]O, by more than 15%. For proton knockout from ([ital l][plus minus]1/2) spin-orbit doublet states, the changes caused by electron distribution have opposite effects, increasing the magnitude of the one while decreasing the other. The Coulomb effects on the fifth structure function depend on the out of plane angle used in the extraction. For a small angle (e.g., 10[degree]), the electron distortion can be more than 15% in [sup 16]O. However, for certain kinematic choices, the Coulomb distortion effects on the fifth structure function can largely be removed. For proton knockout from spin-orbit doublet states the ratio of the fifth structure functions is of interest. We find that this ratio is nearly independent of the central part of the proton final state interaction and has the power of investigating the spin-orbit interaction of optical potentials.
ISSN:0556-2813
1089-490X
DOI:10.1103/physrevc.50.168