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E0 transition strength in stable Ni isotopes

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E0 transition strength in stable Ni isotopes. / Evitts, L. J.; Garnsworthy, A. B.; Kibédi, T. et al.
Yn: Physical Review C, Cyfrol 99, Rhif 2, 024306, 11.02.2019.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

Evitts, LJ, Garnsworthy, AB, Kibédi, T, Smallcombe, J, Reed, MW, Stuchbery, AE, Lane, GJ, Eriksen, TK, Akber, A, Alshahrani, B, de Vries, M, Gerathy, MSM, Holt, JD, Lee, BQ, McCormick, BP, Mitchell, AJ, Moukaddam, M, Mukhopadhyay, S, Palalani, N, Palazzo, T, Peters, EE, Ramirez, APD, Tornyi, T & Yates, SW 2019, 'E0 transition strength in stable Ni isotopes', Physical Review C, cyfrol. 99, rhif 2, 024306. https://doi.org/10.1103/PhysRevC.99.024306

APA

Evitts, L. J., Garnsworthy, A. B., Kibédi, T., Smallcombe, J., Reed, M. W., Stuchbery, A. E., Lane, G. J., Eriksen, T. K., Akber, A., Alshahrani, B., de Vries, M., Gerathy, M. S. M., Holt, J. D., Lee, B. Q., McCormick, B. P., Mitchell, A. J., Moukaddam, M., Mukhopadhyay, S., Palalani, N., ... Yates, S. W. (2019). E0 transition strength in stable Ni isotopes. Physical Review C, 99(2), Erthygl 024306. https://doi.org/10.1103/PhysRevC.99.024306

CBE

Evitts LJ, Garnsworthy AB, Kibédi T, Smallcombe J, Reed MW, Stuchbery AE, Lane GJ, Eriksen TK, Akber A, Alshahrani B, et al. 2019. E0 transition strength in stable Ni isotopes. Physical Review C. 99(2):Article 024306. https://doi.org/10.1103/PhysRevC.99.024306

MLA

Evitts, L. J. et al. "E0 transition strength in stable Ni isotopes". Physical Review C. 2019. 99(2). https://doi.org/10.1103/PhysRevC.99.024306

VancouverVancouver

Evitts LJ, Garnsworthy AB, Kibédi T, Smallcombe J, Reed MW, Stuchbery AE et al. E0 transition strength in stable Ni isotopes. Physical Review C. 2019 Chw 11;99(2):024306. doi: 10.1103/PhysRevC.99.024306

Author

Evitts, L. J. ; Garnsworthy, A. B. ; Kibédi, T. et al. / E0 transition strength in stable Ni isotopes. Yn: Physical Review C. 2019 ; Cyfrol 99, Rhif 2.

RIS

TY - JOUR

T1 - E0 transition strength in stable Ni isotopes

AU - Evitts, L. J.

AU - Garnsworthy, A. B.

AU - Kibédi, T.

AU - Smallcombe, J.

AU - Reed, M. W.

AU - Stuchbery, A. E.

AU - Lane, G. J.

AU - Eriksen, T. K.

AU - Akber, A.

AU - Alshahrani, B.

AU - de Vries, M.

AU - Gerathy, M. S. M.

AU - Holt, J. D.

AU - Lee, B. Q.

AU - McCormick, B. P.

AU - Mitchell, A. J.

AU - Moukaddam, M.

AU - Mukhopadhyay, S.

AU - Palalani, N.

AU - Palazzo, T.

AU - Peters, E. E.

AU - Ramirez, A. P. D.

AU - Tornyi, T.

AU - Yates, S. W.

PY - 2019/2/11

Y1 - 2019/2/11

N2 - Excited states in 58, 60, 62Ni were populated via inelastic proton scattering at the Australian National University as well as via inelastic neutron scattering at the University of Kentucky Accelerator Laboratory. The Super-e electron spectrometer and the CAESAR Compton-suppressed HPGe array were used in complementary experiments to measure conversion coefficients and δ(E2/M1) mixing ratios, respectively, for a number of 2+ → 2+ transitions. The data obtained were combined with lifetimes and branching ratios to determine E0, M1, and E2 transition strengths between 2+ states. The E0 transition strengths between 0+ states were measured using internal conversion electron spectroscopy and compare well to previous results from internal pair formation spectroscopy. The E0 transition strengths between the lowest-lying 2+ states were found to be consistently large for the isotopes studied.

AB - Excited states in 58, 60, 62Ni were populated via inelastic proton scattering at the Australian National University as well as via inelastic neutron scattering at the University of Kentucky Accelerator Laboratory. The Super-e electron spectrometer and the CAESAR Compton-suppressed HPGe array were used in complementary experiments to measure conversion coefficients and δ(E2/M1) mixing ratios, respectively, for a number of 2+ → 2+ transitions. The data obtained were combined with lifetimes and branching ratios to determine E0, M1, and E2 transition strengths between 2+ states. The E0 transition strengths between 0+ states were measured using internal conversion electron spectroscopy and compare well to previous results from internal pair formation spectroscopy. The E0 transition strengths between the lowest-lying 2+ states were found to be consistently large for the isotopes studied.

U2 - 10.1103/PhysRevC.99.024306

DO - 10.1103/PhysRevC.99.024306

M3 - Article

VL - 99

JO - Physical Review C

JF - Physical Review C

IS - 2

M1 - 024306

ER -