Orbital dependent nucleonic pairing in the lightest known isotopes of tin

Carl J. Gross; Carrol R. Bingham; David T. Joss; Iain G. Darby; Jimmy Rotureau; Jon C. Batchelder; Krzysztof P. Rykaczewski; Lucia Cartegni; Morten Hjorth-Jensen; Mustafa M. Rajabali

arxiv: 1009.2162 · v1 · pith:3CDU67YHnew · submitted 2010-09-11 · ⚛️ nucl-ex · nucl-th

Orbital dependent nucleonic pairing in the lightest known isotopes of tin

Iain G. Darby , Robert K. Grzywacz , Jon C. Batchelder , Carrol R. Bingham , Lucia Cartegni , Carl J. Gross , Morten Hjorth-Jensen , David T. Joss

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Sean N. Liddick Witold Nazarewicz Stephen Padgett Robert D. Page Thomas Papenbrock Mustafa M. Rajabali Jimmy Rotureau Krzysztof P. Rykaczewski

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classification ⚛️ nucl-ex nucl-th

keywords isotopespairingstatealpha-decayargumentscalculationschaincollective

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By studying the 109Xe-->105Te-->101Sn superallowed alpha-decay chain, we observe low-lying states in 101Sn, the one-neutron system outside doubly magic 100Sn. We find that the spins of the ground state (J = 7=2) and first excited state (J = 5=2) in 101Sn are reversed with respect to the traditional level ordering postulated for 103Sn and the heavier tin isotopes. Through simple arguments and state-of-the-art shell model calculations we explain this unexpected switch in terms of a transition from the single-particle regime to the collective mode in which orbital-dependent pairing correlations, dominate.

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Orbital dependent nucleonic pairing in the lightest known isotopes of tin

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