Experimental Guidance of ISB Corrections via Direct Nuclear Reactions

The most recent isospin-symmetry-breaking corrections, δc, of Towner and Hardy for superallowed Fermi β-decay transitions, have included the opening of specific core orbitals. This change has resulted in significant deviations in some of the δc factors from their previous calculations, and an improv...

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Bibliographic Details
Published in:Journal of physics. Conference series 2011-01, Vol.312 (9), p.92036-6
Main Authors: Leach, K G, Garrett, P E, Ball, G C, Bangay, J C, Bianco, L, Demand, G A, Faestermann, T, Finlay, P, Green, K L, Hertenberger, R, Kriicken, R, Phillips, A A, Rand, E T, Sumithrarachchi, C S, Svensson, C E, Towner, I S, Triambak, S, Wirth, H-F, Wong, J
Format: Article
Language:English
Subjects:
Beams (radiation)
Beta decay
Broken symmetry
Deuterium
Deviation
Focal plane
Hardness
Mathematical models
Nuclear reactions
Physics
Reaction mechanisms
Tritons
Van de Graaff accelerators
Wave functions
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Summary:The most recent isospin-symmetry-breaking corrections, δc, of Towner and Hardy for superallowed Fermi β-decay transitions, have included the opening of specific core orbitals. This change has resulted in significant deviations in some of the δc factors from their previous calculations, and an improved agreement of the individual corrected t values with the overall world average of the 13 most precise cases. While this is consistent with the conserved-vector-current (CVC) hypothesis of the Standard Model, these new calculations must be thoroughly tested, and guidance must be given for the improvement of calculations for the upper-pf shell nuclei. Using the (d,t) reaction mechanism to probe the single neutron wavefunction overlap, information regarding the relevant shell-model configurations needed in the calculation can be determined. An experiment was therefore performed with a 22 MeV polarized deuterium beam from the MP tandem Van de Graaff accelerator in Munich, Germany. Using the Q3D magnetic spectrograph, and a cathode-strip focal-plane detector, outgoing tritons were analyzed at 9 angles between 10° and 60°, up to an excitation energy of 4.8 MeV. This proceeding reports the motivational and experimental details for the 64Zn(d,t)63Zn transfer work presented.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/312/9/092036