Investigation of 152Sm by complementary reactions

P. E. Garrett; W. D. Kulp; J. L. Wood; J. M. Allmond; D. Bandyopadhyay; S. Christen; S. N. Choudry; D. Cline; D. Dashdorj; A. Dewald; A. Fitzler; C. Fransen; A. B. Hayes; H. Hua; K. Jessen; J. Jolie; A. Kloezer; P. Kudejova; A. Kumar; S. R. Lesher; A. Linnemann; A. Lisetskiy; D. Martin; M. Masur; M. T. McEllistrem; O. Möller; M. G. Mynk; C. J. McKay; J. N. Orce; P. Pejovic; T. Pissulla; J. M. Regis; A. Schiller; R. Teng; D. Tonev; C. Y. Wu; S. W. Yates

doi:10.1063/1.3087052

Investigation of 152Sm by complementary reactions

P. E. Garrett
, W. D. Kulp
, J. L. Wood
, J. M. Allmond
, D. Bandyopadhyay
, S. Christen
, S. N. Choudry
, D. Cline
, D. Dashdorj
, A. Dewald
, A. Fitzler
, C. Fransen
, A. B. Hayes
, H. Hua
, K. Jessen
, J. Jolie
, A. Kloezer
, P. Kudejova
, A. Kumar
, S. R. Lesher

A. Linnemann, A. Lisetskiy, D. Martin, M. Masur, M. T. McEllistrem, O. Möller, M. G. Mynk, C. J. McKay, J. N. Orce, P. Pejovic, T. Pissulla, J. M. Regis, A. Schiller, R. Teng, D. Tonev, C. Y. Wu, S. W. Yates

Physics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Understanding the nuclear structure of 152Sm, along with other N = 90 isotones, has long posed a challenge. A rapid transition in shape between the spherical N = 88 150Sm and well-deformed N = 92 154Smis observed, along with strong evidence for shape coexistence. Competing ideas have been put forward over the decades, with the most recent being that N = 90 is at the critical point of a shape phase transition. Until recently, the lack of high-precision data has not allowed the competing models to be extensively tested. In a coordinated program of investigation, a series of complementary experiments, which include high-statistics β decay, multi-step Coulomb excitation, the 150Nd(α,2n) reaction, and the (n,nγ) reaction, have been performed for 152Sm. These experiments have revealed the existence of a pairing-isomer band, a hexadecapole band, the lack of multi-phonon β vibrational bands, and the repetition of structures built on the first excited Kπ = 0+ as built on the ground state. The status of these coordinated studies is examined. © 2009 American Institute of Physics.

Original language	English
Title of host publication	13th International Symposium on Capture Gamma-Ray Spectroscopy and Related Topics
Volume	1090
DOIs	https://doi.org/10.1063/1.3087052
State	Published - 2009

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10.1063/1.3087052

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Garrett, P. E., Kulp, W. D., Wood, J. L., Allmond, J. M., Bandyopadhyay, D., Christen, S., Choudry, S. N., Cline, D., Dashdorj, D., Dewald, A., Fitzler, A., Fransen, C., Hayes, A. B., Hua, H., Jessen, K., Jolie, J., Kloezer, A., Kudejova, P., Kumar, A., ... Yates, S. W. (2009). Investigation of 152Sm by complementary reactions. In 13th International Symposium on Capture Gamma-Ray Spectroscopy and Related Topics (Vol. 1090) https://doi.org/10.1063/1.3087052

@inproceedings{41184929676745bcb20cd2242a7330b9,

title = "Investigation of 152Sm by complementary reactions",

abstract = "Understanding the nuclear structure of 152Sm, along with other N = 90 isotones, has long posed a challenge. A rapid transition in shape between the spherical N = 88 150Sm and well-deformed N = 92 154Smis observed, along with strong evidence for shape coexistence. Competing ideas have been put forward over the decades, with the most recent being that N = 90 is at the critical point of a shape phase transition. Until recently, the lack of high-precision data has not allowed the competing models to be extensively tested. In a coordinated program of investigation, a series of complementary experiments, which include high-statistics β decay, multi-step Coulomb excitation, the 150Nd(α,2n) reaction, and the (n,nγ) reaction, have been performed for 152Sm. These experiments have revealed the existence of a pairing-isomer band, a hexadecapole band, the lack of multi-phonon β vibrational bands, and the repetition of structures built on the first excited Kπ = 0+ as built on the ground state. The status of these coordinated studies is examined. {\textcopyright} 2009 American Institute of Physics.",

author = "Garrett, \{P. E.\} and Kulp, \{W. D.\} and Wood, \{J. L.\} and Allmond, \{J. M.\} and D. Bandyopadhyay and S. Christen and Choudry, \{S. N.\} and D. Cline and D. Dashdorj and A. Dewald and A. Fitzler and C. Fransen and Hayes, \{A. B.\} and H. Hua and K. Jessen and J. Jolie and A. Kloezer and P. Kudejova and A. Kumar and Lesher, \{S. R.\} and A. Linnemann and A. Lisetskiy and D. Martin and M. Masur and McEllistrem, \{M. T.\} and O. M{\"o}ller and Mynk, \{M. G.\} and McKay, \{C. J.\} and Orce, \{J. N.\} and P. Pejovic and T. Pissulla and Regis, \{J. M.\} and A. Schiller and R. Teng and D. Tonev and Wu, \{C. Y.\} and Yates, \{S. W.\}",

year = "2009",

doi = "10.1063/1.3087052",

language = "English",

volume = "1090",

booktitle = "13th International Symposium on Capture Gamma-Ray Spectroscopy and Related Topics",

}

Garrett, PE, Kulp, WD, Wood, JL, Allmond, JM, Bandyopadhyay, D, Christen, S, Choudry, SN, Cline, D, Dashdorj, D, Dewald, A, Fitzler, A, Fransen, C, Hayes, AB, Hua, H, Jessen, K, Jolie, J, Kloezer, A, Kudejova, P, Kumar, A, Lesher, SR, Linnemann, A, Lisetskiy, A, Martin, D, Masur, M, McEllistrem, MT, Möller, O, Mynk, MG, McKay, CJ, Orce, JN, Pejovic, P, Pissulla, T, Regis, JM, Schiller, A, Teng, R, Tonev, D, Wu, CY & Yates, SW 2009, Investigation of 152Sm by complementary reactions. in 13th International Symposium on Capture Gamma-Ray Spectroscopy and Related Topics. vol. 1090. https://doi.org/10.1063/1.3087052

TY - GEN

T1 - Investigation of 152Sm by complementary reactions

AU - Garrett, P. E.

AU - Kulp, W. D.

AU - Wood, J. L.

AU - Allmond, J. M.

AU - Bandyopadhyay, D.

AU - Christen, S.

AU - Choudry, S. N.

AU - Cline, D.

AU - Dashdorj, D.

AU - Dewald, A.

AU - Fitzler, A.

AU - Fransen, C.

AU - Hayes, A. B.

AU - Hua, H.

AU - Jessen, K.

AU - Jolie, J.

AU - Kloezer, A.

AU - Kudejova, P.

AU - Kumar, A.

AU - Lesher, S. R.

AU - Linnemann, A.

AU - Lisetskiy, A.

AU - Martin, D.

AU - Masur, M.

AU - McEllistrem, M. T.

AU - Möller, O.

AU - Mynk, M. G.

AU - McKay, C. J.

AU - Orce, J. N.

AU - Pejovic, P.

AU - Pissulla, T.

AU - Regis, J. M.

AU - Schiller, A.

AU - Teng, R.

AU - Tonev, D.

AU - Wu, C. Y.

AU - Yates, S. W.

PY - 2009

Y1 - 2009

N2 - Understanding the nuclear structure of 152Sm, along with other N = 90 isotones, has long posed a challenge. A rapid transition in shape between the spherical N = 88 150Sm and well-deformed N = 92 154Smis observed, along with strong evidence for shape coexistence. Competing ideas have been put forward over the decades, with the most recent being that N = 90 is at the critical point of a shape phase transition. Until recently, the lack of high-precision data has not allowed the competing models to be extensively tested. In a coordinated program of investigation, a series of complementary experiments, which include high-statistics β decay, multi-step Coulomb excitation, the 150Nd(α,2n) reaction, and the (n,nγ) reaction, have been performed for 152Sm. These experiments have revealed the existence of a pairing-isomer band, a hexadecapole band, the lack of multi-phonon β vibrational bands, and the repetition of structures built on the first excited Kπ = 0+ as built on the ground state. The status of these coordinated studies is examined. © 2009 American Institute of Physics.

AB - Understanding the nuclear structure of 152Sm, along with other N = 90 isotones, has long posed a challenge. A rapid transition in shape between the spherical N = 88 150Sm and well-deformed N = 92 154Smis observed, along with strong evidence for shape coexistence. Competing ideas have been put forward over the decades, with the most recent being that N = 90 is at the critical point of a shape phase transition. Until recently, the lack of high-precision data has not allowed the competing models to be extensively tested. In a coordinated program of investigation, a series of complementary experiments, which include high-statistics β decay, multi-step Coulomb excitation, the 150Nd(α,2n) reaction, and the (n,nγ) reaction, have been performed for 152Sm. These experiments have revealed the existence of a pairing-isomer band, a hexadecapole band, the lack of multi-phonon β vibrational bands, and the repetition of structures built on the first excited Kπ = 0+ as built on the ground state. The status of these coordinated studies is examined. © 2009 American Institute of Physics.

UR - https://dx.doi.org/10.1063/1.3087052

U2 - 10.1063/1.3087052

DO - 10.1063/1.3087052

M3 - Conference contribution

VL - 1090

BT - 13th International Symposium on Capture Gamma-Ray Spectroscopy and Related Topics

ER -

Investigation of 152Sm by complementary reactions

Abstract

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