Reorientation-effect measurement of the〈21+∥E2̂∥21+〉matrix element in10Be

J N Orce,R Churchman,J Wong,K G Leach,D S Cross,H Al Falou,E R Tardiff,C S Sumithrarachchi,E T Rand,R Kshetri,F Sarazin,P E Garrett,J Lassen,M A Stoyer,G Hackman,S Triambak,P Finlay,C Y Wu,A B Hayes,A B Garnsworthy,C J Pearson,R Li,C E Svensson,Spencer J Williams ,Andrea Teigelhoefer ,G Ball ,Christian Forssén ,M Djongolov ,J Meißner ,Sky Sjue ,T.e Drake ,Petr Navrátil

doi:10.1103/physrevc.86.041303

Abstract

The highly-efficient and segmented TIGRESS gamma-ray spectrometer at TRIUMF has been used to perform a reorientation-effect Coulomb-excitation study of the 2(1)(+) state at 3.368 MeV in Be-10. This is the first Coulomb-excitation measurement that enables one to obtain information on diagonal matrix elements for such a high-lying first excited state from gamma-ray data. With the availability of accurate lifetime data, a value of -0.110 +/- 0.087 eb is determined for the diagonal matrix element, which assuming the rotor model, leads to a negative spectroscopic quadrupole moment of Q(S)(2(1)(+)) = -0.083 +/- 0.066 eb. This result is in agreement with both no-core shell-model calculations performed in this work with the CD-Bonn 2000 two-nucleon potential and large shell-model spaces, and Green's function Monte Carlo predictions with two-plus three-nucleon potentials.

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