Relativistic effects in the forward deuteron photodisintegration cross section

1 January 1984

journal article
Published by IOP Publishing in Journal of Physics G: Nuclear Physics

Vol. 10 (1) , L11-L15
https://doi.org/10.1088/0305-4616/10/1/003

Abstract

The authors investigate the effect of the one-body ( rho ₁) and two-body ( rho ₂) relativistic corrections to the charge density on the differential cross section at 0 degrees for deuteron photodisintegration. rho ₁ also includes the kinematical contributions due to the wavefunction transformations. The effect of rho ₂ evaluated in pseudovector pi N coupling adds coherently to that of rho ₁, leading to a noticeable improvement of the fit to the data. This improvement is not obtained using the pseudoscalar pi N coupling.

Keywords

This publication has 23 references indexed in Scilit:

Cross section and polarization in deuteron photodisintegration: General formulas
Physical Review C, 1982
Relativistic and Mesonic Corrections to the Forward Cross Section for $d (γ, p) n$
Physical Review Letters, 1982
Low energy theorem and photodisintegration of light nuclei
Nuclear Physics A, 1981
Forward- and Backward-Angle Differential Cross Section for Neutron-Proton Capture at 72 MeV
Physical Review Letters, 1981
Low-Energy Theorems and the Forward Proton Production in $D (γ, p) n$
Physical Review Letters, 1978
Forward proton production in d(γ, p)n and the role of the tensor force
Nuclear Physics A, 1977
Exchange currents in nuclei, threshold pion photoproduction from nucleons, and the equivalence theorem
Physical Review C, 1977
Pion-exchange contributions to the nuclear charge, current, and Hamiltonian operators
Annals of Physics, 1977
Elastic electron-deuteron scattering as a probe of the deuteron wave function
Physical Review C, 1975
Relativistic Center-of-Mass Motion and the Electromagnetic Interaction of Systems of Charged Particles
Physical Review D, 1970