Study of 3he(e,e') Longitudinal Response Functions with the Integral-Transform Method
摘要
The method of integral transforms is first applied for studying the He longitudinal response functions. The transforms are calculated from localized bound-state-type solutions to an inhomogenous Schr\"odinger-type three-body equation. Several versions of local -wave spin-dependent potentials supplemented with a singlet -wave potential and with the proton-proton Coulomb interaction are used as a two-nucleon input. The conventional charge density operator is utilized. The three-body equations are solved with a high acuracy. It is found that the contribution of the final states to the problem is suppressed and it amounts about 15\%. This might be ascribed to symmetry requirements. The contributions of the -wave interaction and of the Coulomb interaction are found to amount several per cent. Uncertainty due to different choices of -wave forces is of a similar magnitude provided that the low-energy data are properly described. The results are compared with the integral transforms of the experimental response functions. For MeV/c experimental and theoretical results coincide within their uncertainties. For MeV/c a noticeable difference is detected.
引用
@article{arxiv.nucl-th/9409005,
title = {Study of 3he(e,e') Longitudinal Response Functions with the Integral-Transform Method},
author = {V. Yu. Dobretsov and V. D. Efros and Bin Shao},
journal= {arXiv preprint arXiv:nucl-th/9409005},
year = {2009}
}
备注
11 pages, 3 figures available on request, LATEX, Submitted to Yad. Fiz. [Phys. At. Nucl.]