Precision Mass Measurements beyond $^{132}$Sn: Anomalous behaviour of odd-even staggering of binding energies

A. Jokinen; A. Kankainen; A. Saastamoinen; D. Gorelov; H.Penttil\"a; I. D. Moore; J. \"Ayst\"o; J. Dobaczewski; J. Hakala; J. Rissanen

arxiv: 1203.0958 · v3 · pith:S6J5KDF4new · submitted 2012-03-05 · ⚛️ nucl-ex

Precision Mass Measurements beyond ¹³²Sn: Anomalous behaviour of odd-even staggering of binding energies

J. Hakala , J. Dobaczewski , D. Gorelov , T. Eronen , A. Jokinen , A. Kankainen , V. S. Kolhinen , M. Kortelainen

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I. D. Moore H.Penttil\"a S. Rinta-Antila J. Rissanen A. Saastamoinen V. Sonnenschein J. \"Ayst\"o

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keywords massesmassmeasuredodd-evenprecisionstaggeringstrongacross

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Atomic masses of the neutron-rich isotopes $^{121-128}$Cd, $^{129,131}$In, $^{130-135}$Sn, $^{131-136}$Sb, and $^{132-140}$Te have been measured with high precision (10 ppb) using the Penning trap mass spectrometer JYFLTRAP. Among these, the masses of four r-process nuclei $^{135}$Sn, $^{136}$Sb, and $^{139,140}$Te were measured for the first time. The data reveals a strong $N$=82 shell gap at $Z$=50 but indicates the importance of correlations for $Z>50$. An empirical neutron pairing gap expressed as the odd-even staggering of isotopic masses shows a strong quenching across $N$=82 for Sn, with the $Z$-dependence that is unexplainable by the current theoretical models.

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Precision Mass Measurements beyond ¹³²Sn: Anomalous behaviour of odd-even staggering of binding energies

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