Determination of beta-delayed neutron emission probability limits of rhodium isotopes by gamma-ray spectroscopy
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Authors
Shearman, R
Lorusso, G
Boso, A.
Regan, P H
Nishimura, S
Xu, Z.Y.
Jungclaus, A.
Shimizu, Y
Simpson, G.S.
Soderstrom, P.-A.
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IOP Publishing
Abstract
The decay of five neutron-heavy rhodium isotopes were studied at the Radioactive Isotope Beam Factory (RIBF) Facility at the RIKEN Nishina Center after relativistic fission of 238U beam on a thick beryllium target. Previously unknown associated gamma-ray decay energies are reported for each nuclide, and through evaluating the intensity of the 2+ → 0+ E2 transition in the even-even palladium daughter nuclei, 120,122,124Pd, from the beta-tagged gamma-ray spectra an upper or lower limit of beta-delayed neutron emission is deduced for each nuclei. A general, expected trend of increasing Pn is observed in the direction of the neutron drip line.
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Journal of Physics: Conference Series 1643
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Open Access
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Creative Commons Attribution 3.0 licence