Transient field g factor and mean-life measurements with a rare isotope beam of 126Sn

G. J. Kumbartzki; N. Benczer-Koller; D. A. Torres; B. Manning; P. D. O'Malley; Y. Y. Sharon; L. Zamick; C. J. Gross; D. C. Radford; S. J.Q. Robinson; J. M. Allmond; A. E. Stuchbery; K. H. Speidel; N. J. Stone; C. R. Bingham

doi:10.1103/PhysRevC.86.034319

Transient field g factor and mean-life measurements with a rare isotope beam of 126Sn

G. J. Kumbartzki
, N. Benczer-Koller
, D. A. Torres
, B. Manning
, P. D. O'Malley
, Y. Y. Sharon
, L. Zamick
, C. J. Gross
, D. C. Radford
, S. J.Q. Robinson
, J. M. Allmond
, A. E. Stuchbery
, K. H. Speidel
, N. J. Stone
, C. R. Bingham

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

Background: The g factors and lifetimes of the 21+ states in the stable, proton-rich Sn isotopes have been measured, but there is scant information on neutron-rich Sn isotopes. Purpose: Measurement of the g factor and the lifetime of the 21+ state at 1.141 MeV in neutron-rich 126Sn (T_1/2=2. 3×105y). Method: Coulomb excitation in inverse kinematics together with the transient field and the Doppler shift attenuation techniques were applied to a radioactive beam of 126Sn at the Holifield Radioactive Ion Beam Facility. Results: g(21+)=-0.25(21) and τ(21+)=1.5(2) ps were obtained. Conclusions: The data are compared to large-scale shell-model and quasiparticle random-phase calculations. Neutrons in the h_11/2 and d_3/2 orbitals play an important role in the structure of the 21+ state of 126Sn. Challenges, limitations, and implications for such experiments at future rare isotope beam facilities are discussed.

Original language	English
Article number	034319
Journal	Physical Review C - Nuclear Physics
Volume	86
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevC.86.034319
State	Published - Sep 14 2012

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Kumbartzki, G. J., Benczer-Koller, N., Torres, D. A., Manning, B., O'Malley, P. D., Sharon, Y. Y., Zamick, L., Gross, C. J., Radford, D. C., Robinson, S. J. Q., Allmond, J. M., Stuchbery, A. E., Speidel, K. H., Stone, N. J., & Bingham, C. R. (2012). Transient field g factor and mean-life measurements with a rare isotope beam of 126Sn. Physical Review C - Nuclear Physics, 86(3), Article 034319. https://doi.org/10.1103/PhysRevC.86.034319

@article{7f776905d431406c8efb33fbc026b061,

title = "Transient field g factor and mean-life measurements with a rare isotope beam of 126Sn",

abstract = "Background: The g factors and lifetimes of the 21+ states in the stable, proton-rich Sn isotopes have been measured, but there is scant information on neutron-rich Sn isotopes. Purpose: Measurement of the g factor and the lifetime of the 21+ state at 1.141 MeV in neutron-rich 126Sn (T1/2=2. 3×105y). Method: Coulomb excitation in inverse kinematics together with the transient field and the Doppler shift attenuation techniques were applied to a radioactive beam of 126Sn at the Holifield Radioactive Ion Beam Facility. Results: g(21+)=-0.25(21) and τ(21+)=1.5(2) ps were obtained. Conclusions: The data are compared to large-scale shell-model and quasiparticle random-phase calculations. Neutrons in the h11/2 and d3/2 orbitals play an important role in the structure of the 21+ state of 126Sn. Challenges, limitations, and implications for such experiments at future rare isotope beam facilities are discussed.",

author = "Kumbartzki, \{G. J.\} and N. Benczer-Koller and Torres, \{D. A.\} and B. Manning and O'Malley, \{P. D.\} and Sharon, \{Y. Y.\} and L. Zamick and Gross, \{C. J.\} and Radford, \{D. C.\} and Robinson, \{S. J.Q.\} and Allmond, \{J. M.\} and Stuchbery, \{A. E.\} and Speidel, \{K. H.\} and Stone, \{N. J.\} and Bingham, \{C. R.\}",

year = "2012",

month = sep,

day = "14",

doi = "10.1103/PhysRevC.86.034319",

language = "English",

volume = "86",

journal = "Physical Review C - Nuclear Physics",

issn = "0556-2813",

number = "3",

}

Kumbartzki, GJ, Benczer-Koller, N, Torres, DA, Manning, B, O'Malley, PD, Sharon, YY, Zamick, L, Gross, CJ, Radford, DC, Robinson, SJQ, Allmond, JM, Stuchbery, AE, Speidel, KH, Stone, NJ & Bingham, CR 2012, 'Transient field g factor and mean-life measurements with a rare isotope beam of 126Sn', Physical Review C - Nuclear Physics, vol. 86, no. 3, 034319. https://doi.org/10.1103/PhysRevC.86.034319

TY - JOUR

T1 - Transient field g factor and mean-life measurements with a rare isotope beam of 126Sn

AU - Kumbartzki, G. J.

AU - Benczer-Koller, N.

AU - Torres, D. A.

AU - Manning, B.

AU - O'Malley, P. D.

AU - Sharon, Y. Y.

AU - Zamick, L.

AU - Gross, C. J.

AU - Radford, D. C.

AU - Robinson, S. J.Q.

AU - Allmond, J. M.

AU - Stuchbery, A. E.

AU - Speidel, K. H.

AU - Stone, N. J.

AU - Bingham, C. R.

PY - 2012/9/14

Y1 - 2012/9/14

N2 - Background: The g factors and lifetimes of the 21+ states in the stable, proton-rich Sn isotopes have been measured, but there is scant information on neutron-rich Sn isotopes. Purpose: Measurement of the g factor and the lifetime of the 21+ state at 1.141 MeV in neutron-rich 126Sn (T1/2=2. 3×105y). Method: Coulomb excitation in inverse kinematics together with the transient field and the Doppler shift attenuation techniques were applied to a radioactive beam of 126Sn at the Holifield Radioactive Ion Beam Facility. Results: g(21+)=-0.25(21) and τ(21+)=1.5(2) ps were obtained. Conclusions: The data are compared to large-scale shell-model and quasiparticle random-phase calculations. Neutrons in the h11/2 and d3/2 orbitals play an important role in the structure of the 21+ state of 126Sn. Challenges, limitations, and implications for such experiments at future rare isotope beam facilities are discussed.

AB - Background: The g factors and lifetimes of the 21+ states in the stable, proton-rich Sn isotopes have been measured, but there is scant information on neutron-rich Sn isotopes. Purpose: Measurement of the g factor and the lifetime of the 21+ state at 1.141 MeV in neutron-rich 126Sn (T1/2=2. 3×105y). Method: Coulomb excitation in inverse kinematics together with the transient field and the Doppler shift attenuation techniques were applied to a radioactive beam of 126Sn at the Holifield Radioactive Ion Beam Facility. Results: g(21+)=-0.25(21) and τ(21+)=1.5(2) ps were obtained. Conclusions: The data are compared to large-scale shell-model and quasiparticle random-phase calculations. Neutrons in the h11/2 and d3/2 orbitals play an important role in the structure of the 21+ state of 126Sn. Challenges, limitations, and implications for such experiments at future rare isotope beam facilities are discussed.

UR - https://www.scopus.com/pages/publications/84866649282

U2 - 10.1103/PhysRevC.86.034319

DO - 10.1103/PhysRevC.86.034319

M3 - Article

AN - SCOPUS:84866649282

SN - 0556-2813

VL - 86

JO - Physical Review C - Nuclear Physics

JF - Physical Review C - Nuclear Physics

IS - 3

M1 - 034319

ER -

Transient field g factor and mean-life measurements with a rare isotope beam of 126Sn

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