The g factor of the 2+1 state in 132 52 Te, E(2+1 ) = 0.9739 MeV, τ = 2.6 ps, was measured by the transient field technique applied to a radioactive beam. The development of an experimental approach necessary for work in radioactive beam environments is described. The result g = 0.28(15) agrees with the previous measurement by the recoil-in-vacuum technique, but here the sign of the g factor is measured as well.
Measurement of g factors of excited states in radioactive beams by the transient field technique : 132Te / N. Benczer Koller, G.J. Kumbartzki, G. Gürdal, C.J. Gross, A.E. Stuchbery, B. Krieger, R. Hatarik, P. O'Malley, S. Pain, L. Segen, C. Baktash, J. Beene, D.C. Radford, C.H. Yu, N.J. Stone, J.R. Stone, C.R. Bingham, M. Danchev, R. Grzywacz, C. Mazzocchi. - In: PHYSICS LETTERS. SECTION B. - ISSN 0370-2693. - 664:4-5(2008), pp. 241-245.
Measurement of g factors of excited states in radioactive beams by the transient field technique : 132Te
C. MazzocchiUltimo
2008
Abstract
The g factor of the 2+1 state in 132 52 Te, E(2+1 ) = 0.9739 MeV, τ = 2.6 ps, was measured by the transient field technique applied to a radioactive beam. The development of an experimental approach necessary for work in radioactive beam environments is described. The result g = 0.28(15) agrees with the previous measurement by the recoil-in-vacuum technique, but here the sign of the g factor is measured as well.
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