Journal
FEW-BODY SYSTEMS
Volume 42, Issue 1-4, Pages 139-151Publisher
SPRINGER WIEN
DOI: 10.1007/s00601-008-0199-5
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The possibility to resolve narrow structures in reaction cross sections in calculations with the Lorentz integral-transform (LIT) method is studied. To this end we consider a fictitious two-nucleon problem with a low-lying and narrow resonance in the P-3(1) nucleon-nucleon partial wave and calculate the corresponding deuteron photoabsorption cross section''. In the LIT method the use of continuum wave functions is avoided and one works instead with a localized function (psi) over tilde. In this case study it is investigated how far into the asymptotic region (psi) over tilde has to be determined in order to obtain a precise resolution of the artificially introduced E1 resonance. Comparing with the results of a conventional calculation with explicit neutron-proton continuum wave functions it is shown that the LIT approach leads to an excellent reproduction of the cross section in the resonance region and of further finer cross-section details at higher energies. To this end, however, for (psi) over tilde one has to take into account two-nucleon distances up to at least 30 fm.
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