Magnetic moment of the 13/2(+) isomeric state in Cu-69: Spin alignment in the one-nucleon removal reaction

ABE, Y.; BALABANSKI, D. L.; GOASDUFF, A.; ISHII, Y.; ASAHI, K.; CHEVRIER, R.; CHIKAMORI, M.; DAUGAS, J. M.; FURUKAWA, T.; Nishibata, H.; ICHIKAWA, Y.; ISHIBASHI, Y.; LOZEVA, R.; MIYATAKE, H.; NAGAE, D.; NANAO, T.; NIIKURA, M.; NIWA, T.; OKADA, S.; OZAWA, A.; SAITO, Y.; SHIRAI, H.; UENO, H.; Bostan, M.; KUSOGLU, Aslı; YORDANOV, D. T.; YOSHIDA, N.; GEORGIEV, G.; SOTTY, C.

Date

2016

Author

ABE, Y.

BALABANSKI, D. L.

GOASDUFF, A.

ISHII, Y.

ASAHI, K.

CHEVRIER, R.

CHIKAMORI, M.

DAUGAS, J. M.

FURUKAWA, T.

Nishibata, H.

ICHIKAWA, Y.

ISHIBASHI, Y.

LOZEVA, R.

MIYATAKE, H.

NAGAE, D.

NANAO, T.

NIIKURA, M.

NIWA, T.

OKADA, S.

OZAWA, A.

SAITO, Y.

SHIRAI, H.

UENO, H.

Bostan, M.

KUSOGLU, Aslı

YORDANOV, D. T.

YOSHIDA, N.

GEORGIEV, G.

SOTTY, C.

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Abstract

We report on a new measurement of the g factor of the (13/2(+)) isomeric state in the neutron-rich nucleus Cu-69. This study demonstrates the possibility of obtaining considerable nuclear spin alignment for multi-quasiparticle states in single-nucleon removal reactions. The time-dependent perturbed angular distribution (TDPAD) method was used to extract the gyromagnetic factor of the (13/2(+)) [T-1/2 = 351(14) ns] isomeric state of Cu-69. Its g factor was obtained as g(13/2(+)) = 0.248( 9). The experimentally observed spin alignment for the state of interest was deduced as A = -3.3(9)%.

URI

http://hdl.handle.net/20.500.12627/166573
https://doi.org/10.1103/physrevc.93.054313

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