First Measurement of the g Factor in the Chiral Band: The Case of the Cs 128 Isomeric State

E. Grodner; J. Srebrny; Ch Droste; L. Próchniak; S. G. Rohoziński; M. Kowalczyk; M. Ionescu-Bujor; C. A. Ur; K. Starosta; T. Ahn; M. Kisieliński; T. Marchlewski; S. Aydin; F. Recchia; G. Georgiev; R. Lozeva; E. Fiori; M. Zielińska; Q. B. Chen; S. Q. Zhang; L. F. Yu; P. W. Zhao; J. Meng

doi:10.1103/PhysRevLett.120.022502

First Measurement of the g Factor in the Chiral Band: The Case of the Cs 128 Isomeric State

E. Grodner
, J. Srebrny
, Ch Droste
, L. Próchniak
, S. G. Rohoziński
, M. Kowalczyk
, M. Ionescu-Bujor
, C. A. Ur
, K. Starosta
, T. Ahn
, M. Kisieliński
, T. Marchlewski
, S. Aydin
, F. Recchia
, G. Georgiev
, R. Lozeva
, E. Fiori
, M. Zielińska
, Q. B. Chen
, S. Q. Zhang

L. F. Yu, P. W. Zhao, J. Meng

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

29 Scopus citations

Abstract

The g factor of the 56 ns half-life isomeric state in Cs128 has been measured using the time-differential perturbed angular distribution method. This state is the bandhead of the positive-parity chiral rotational band, which emerges when an unpaired proton, an unpaired neutron hole, and an even-even core are coupled such that their angular momentum vectors are aplanar (chiral configuration). g-factor measurements can give important information on the relative orientation of the three angular momentum vectors. The measured g factor g=+0.59(1) shows that there is an important contribution of the core rotation in the total angular momentum of the isomeric state. Moreover, a quantitative theoretical analysis supports the conclusion that the three angular momentum vectors lie almost in one plane, which suggests that the chiral configuration in Cs128 demonstrated in previous works by characteristic patterns of electromagnetic transitions appears only above some value of the total nuclear spin.

Original language	English
Article number	022502
Journal	Physical Review Letters
Volume	120
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevLett.120.022502
State	Published - 12 Jan 2018
Externally published	Yes

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Grodner, E., Srebrny, J., Droste, C., Próchniak, L., Rohoziński, S. G., Kowalczyk, M., Ionescu-Bujor, M., Ur, C. A., Starosta, K., Ahn, T., Kisieliński, M., Marchlewski, T., Aydin, S., Recchia, F., Georgiev, G., Lozeva, R., Fiori, E., Zielińska, M., Chen, Q. B., ... Meng, J. (2018). First Measurement of the g Factor in the Chiral Band: The Case of the Cs 128 Isomeric State. Physical Review Letters, 120(2), Article 022502. https://doi.org/10.1103/PhysRevLett.120.022502

@article{d88fa64f52404fe9a499f3eef1794191,

title = "First Measurement of the g Factor in the Chiral Band: The Case of the Cs 128 Isomeric State",

abstract = "The g factor of the 56 ns half-life isomeric state in Cs128 has been measured using the time-differential perturbed angular distribution method. This state is the bandhead of the positive-parity chiral rotational band, which emerges when an unpaired proton, an unpaired neutron hole, and an even-even core are coupled such that their angular momentum vectors are aplanar (chiral configuration). g-factor measurements can give important information on the relative orientation of the three angular momentum vectors. The measured g factor g=+0.59(1) shows that there is an important contribution of the core rotation in the total angular momentum of the isomeric state. Moreover, a quantitative theoretical analysis supports the conclusion that the three angular momentum vectors lie almost in one plane, which suggests that the chiral configuration in Cs128 demonstrated in previous works by characteristic patterns of electromagnetic transitions appears only above some value of the total nuclear spin.",

author = "E. Grodner and J. Srebrny and Ch Droste and L. Pr{\'o}chniak and Rohozi{\'n}ski, \{S. G.\} and M. Kowalczyk and M. Ionescu-Bujor and Ur, \{C. A.\} and K. Starosta and T. Ahn and M. Kisieli{\'n}ski and T. Marchlewski and S. Aydin and F. Recchia and G. Georgiev and R. Lozeva and E. Fiori and M. Zieli{\'n}ska and Chen, \{Q. B.\} and Zhang, \{S. Q.\} and Yu, \{L. F.\} and Zhao, \{P. W.\} and J. Meng",

note = "Publisher Copyright: {\textcopyright} 2018 American Physical Society.",

year = "2018",

month = jan,

day = "12",

doi = "10.1103/PhysRevLett.120.022502",

language = "英语",

volume = "120",

journal = "Physical Review Letters",

issn = "0031-9007",

publisher = "American Physical Society",

number = "2",

}

Grodner, E, Srebrny, J, Droste, C, Próchniak, L, Rohoziński, SG, Kowalczyk, M, Ionescu-Bujor, M, Ur, CA, Starosta, K, Ahn, T, Kisieliński, M, Marchlewski, T, Aydin, S, Recchia, F, Georgiev, G, Lozeva, R, Fiori, E, Zielińska, M, Chen, QB, Zhang, SQ, Yu, LF, Zhao, PW & Meng, J 2018, 'First Measurement of the g Factor in the Chiral Band: The Case of the Cs 128 Isomeric State', Physical Review Letters, vol. 120, no. 2, 022502. https://doi.org/10.1103/PhysRevLett.120.022502

TY - JOUR

T1 - First Measurement of the g Factor in the Chiral Band

T2 - The Case of the Cs 128 Isomeric State

AU - Grodner, E.

AU - Srebrny, J.

AU - Droste, Ch

AU - Próchniak, L.

AU - Rohoziński, S. G.

AU - Kowalczyk, M.

AU - Ionescu-Bujor, M.

AU - Ur, C. A.

AU - Starosta, K.

AU - Ahn, T.

AU - Kisieliński, M.

AU - Marchlewski, T.

AU - Aydin, S.

AU - Recchia, F.

AU - Georgiev, G.

AU - Lozeva, R.

AU - Fiori, E.

AU - Zielińska, M.

AU - Chen, Q. B.

AU - Zhang, S. Q.

AU - Yu, L. F.

AU - Zhao, P. W.

AU - Meng, J.

PY - 2018/1/12

Y1 - 2018/1/12

N2 - The g factor of the 56 ns half-life isomeric state in Cs128 has been measured using the time-differential perturbed angular distribution method. This state is the bandhead of the positive-parity chiral rotational band, which emerges when an unpaired proton, an unpaired neutron hole, and an even-even core are coupled such that their angular momentum vectors are aplanar (chiral configuration). g-factor measurements can give important information on the relative orientation of the three angular momentum vectors. The measured g factor g=+0.59(1) shows that there is an important contribution of the core rotation in the total angular momentum of the isomeric state. Moreover, a quantitative theoretical analysis supports the conclusion that the three angular momentum vectors lie almost in one plane, which suggests that the chiral configuration in Cs128 demonstrated in previous works by characteristic patterns of electromagnetic transitions appears only above some value of the total nuclear spin.

AB - The g factor of the 56 ns half-life isomeric state in Cs128 has been measured using the time-differential perturbed angular distribution method. This state is the bandhead of the positive-parity chiral rotational band, which emerges when an unpaired proton, an unpaired neutron hole, and an even-even core are coupled such that their angular momentum vectors are aplanar (chiral configuration). g-factor measurements can give important information on the relative orientation of the three angular momentum vectors. The measured g factor g=+0.59(1) shows that there is an important contribution of the core rotation in the total angular momentum of the isomeric state. Moreover, a quantitative theoretical analysis supports the conclusion that the three angular momentum vectors lie almost in one plane, which suggests that the chiral configuration in Cs128 demonstrated in previous works by characteristic patterns of electromagnetic transitions appears only above some value of the total nuclear spin.

UR - https://www.scopus.com/pages/publications/85040454135

U2 - 10.1103/PhysRevLett.120.022502

DO - 10.1103/PhysRevLett.120.022502

M3 - 文章

C2 - 29376727

AN - SCOPUS:85040454135

SN - 0031-9007

VL - 120

JO - Physical Review Letters

JF - Physical Review Letters

IS - 2

M1 - 022502

ER -

First Measurement of the g Factor in the Chiral Band: The Case of the Cs 128 Isomeric State

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