Quenching of Single-Particle Strength in A = 15 Nuclei

Quenching of Single-Particle Strength in A = 15 Nuclei

Here, absolute cross sections for the addition of s- and d-wave neutrons to 14C and 14N have been determined simultaneously via the (d,p) reaction at 10 MeV/u. The difference between the neutron and proton separation energies, ΔS, is around -20 MeV for the 14C+n system and +8 MeV for 14N+n. The popu...

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Veröffentlicht in:Physical review letters 2022-10, Vol.129 (15), p.152501-152501, Article 152501
Hauptverfasser: Kay, B. P., Tang, T. L., Tolstukhin, I. A., Roderick, G. B., Mitchell, A. J., Ayyad, Y., Bennett, S. A., Chen, J., Chipps, K. A., Crawford, H. L., Freeman, S. J., Garrett, K., Gott, M. D., Hall, M. R., Hoffman, C. R., Jayatissa, H., Macchiavelli, A. O., MacGregor, P. T., Sharp, D. K., Wilson, G. L.
Format: Artikel
Sprache:eng
Schlagworte:
direct reactions
NUCLEAR PHYSICS AND RADIATION PHYSICS
nuclear reactions
spectrometers & spectroscopic techniques
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Zusammenfassung:Here, absolute cross sections for the addition of s- and d-wave neutrons to 14C and 14N have been determined simultaneously via the (d,p) reaction at 10 MeV/u. The difference between the neutron and proton separation energies, ΔS, is around -20 MeV for the 14C+n system and +8 MeV for 14N+n. The population of the 1s1/2 and 0d5/2 orbitals for both systems is reduced by a factor of approximately 0.5 compared with the independent single-particle model, or about 0.6 when compared with the shell model. This finding strongly contrasts with results deduced from intermediate-energy knockout reactions between similar nuclei on targets of 9Be and 12C. The simultaneous technique used removes many systematic uncertainties.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.129.152501