Intermediate-energy Coulomb excitation ofFe52 | Zendy

K. L. Yurkewicz | Zendy; D. Bazin | Zendy; B. A. Brown | Zendy; C. M. Campbell | Zendy; J. A. Church | Zendy; D.C. Dinca | Zendy; A. Gade | Zendy; T. Glasmacher | Zendy; Mareki Honma | Zendy; T. Mizusaki | Zendy; W. F. Mueller | Zendy; H. Olliver | Zendy; Takaharu Otsuka | Zendy; L. A. Riley | Zendy; J. R. Terry | Zendy

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Intermediate-energy Coulomb excitation ofFe52

Author(s) -

K. L. Yurkewicz,

D. Bazin,

B. A. Brown,

C. M. Campbell,

J. A. Church,

D.C. Dinca,

A. Gade,

T. Glasmacher,

Mareki Honma,

T. Mizusaki,

W. F. Mueller,

H. Olliver,

Takaharu Otsuka,

L. A. Riley,

J. R. Terry

Publication year - 2004

Publication title -

physical review c

Language(s) - English

Resource type - Journals

eISSN - 1089-490X

pISSN - 0556-2813

DOI - 10.1103/physrevc.70.034301

Subject(s) - physics , excited state , excitation , coulomb excitation , atomic physics , energy (signal processing) , quantum mechanics

The nucleus52Fe withsN=Z=26dhas been investigated using intermediate-energy Coulomb excitation ininverse kinematics. A reduced transition probability ofBsE2;01+!21+d= 817s102de2fm4to the first excited 2+state at 849.0(5)keV was deduced. The increase in excitation strengthBsE2"dwith respect to the even-massneighbor54Fe(BsE2"d= 620s50de2fm4)agrees with shell-model expectations as the magic numberN=28 isapproached. This measurement completes the systematics of reduced transition strengths to the first excited 2+state for the even-evenN=Znuclei up to massA= 56status: publishe

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