Gamow-Teller Strengths in theA=14Multiplet: A Challenge to the Shell Model

A Negreţ ,K Heyde,P Von Brentano,E Jacobs,Y Shimbara,L Popescu,E.-W Grewe,D Frekers,Y Sakemi,M Uchida,N Ryezayeva,P Haefner,B R Barrett,Y Fujita,K Fujita,A Tamii,H J Wörtche,H Fujita,T Adachi,A Korff,A Shevchenko,Y Kalmykov,A Richter,Y Tameshige,M Yosoi,D De Frenne,A M Van Den Berg,Y Shimizu,P Von Neumann-Cosel,K Hatanaka,K Nakanishi,M Hunyadi,S Rakers,Mohsen Harakeh ,Christian Bäumer ,G.p.a Berg ,James P Vary ,Petr Navrátil ,Larry Zamick

doi:10.1103/physrevlett.97.062502

Abstract

A new experimental approach to the famous problem of the anomalously slow Gamow-Teller (GT) transitions in the beta decay of the A=14 multiplet is presented. The GT strength distributions to excited states in 14C and 14O were studied in high-resolution (d,2He) and (3He,t) charge-exchange reactions on 14N. No-core shell-model calculations capable of reproducing the suppression of the beta decays predict a selective excitation of Jpi=2+ states. The experimental confirmation represents a validation of the assumptions about the underlying structure of the 14N ground state wave function. However, the fragmentation of the GT strength over three 2+ final states remains a fundamental issue not explained by the present no-core shell model using a 6homega model space, suggesting possibly the need to include cluster structure in these light nuclei in a consistent way.

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