Comprehensive studies of low-spin collective excitations in 94Mo

C. Fransen; N. Pietralla; Z. Ammar; D. Bandyopadhyay; N. Boukharouba; P. Von Brentano; A. Dewald; J. Gableske; A. Gade; J. Jolie; U. Kneissl; S. R. Lesher; A. F. Lisetskiy; M. T. McEllistrem; M. Merrick; H. H. Pitz; N. Warr; V. Werner; S. W. Yates

doi:10.1103/PhysRevC.67.024307

Comprehensive studies of low-spin collective excitations in 94Mo

C. Fransen
, N. Pietralla
, Z. Ammar
, D. Bandyopadhyay
, N. Boukharouba
, P. Von Brentano
, A. Dewald
, J. Gableske
, A. Gade
, J. Jolie
, U. Kneissl
, S. R. Lesher
, A. F. Lisetskiy
, M. T. McEllistrem
, M. Merrick
, H. H. Pitz
, N. Warr
, V. Werner
, S. W. Yates

Physics

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

108 Scopus citations

Abstract

Excited low-spin states in 94Mo have been studied extensively with a combination of γ-ray spectroscopic techniques. We have performed photon scattering experiments, γγ coincidence measurements following the β+ decay of 94Tcm, in-beam γγ coincidence studies with the reaction 91Zr(α,n)94Mo, and 94Mo(n,n′ γ) measurements. These experiments yielded detailed information about the low-spin level scheme of 94Mo. From measured lifetimes, branching ratios, and multipole mixing ratios, many absolute transition strengths were determined. These data permitted the interpretation of several low-spin states in terms of collective excitations, that are not fully symmetric with respect to the proton-neutron degree of freedom, the so-called mixed-symmetry (MS) states: The one-phonon 2+ MS state and three members of an expected multiplet of two-phonon MS states were identified from absolute M l and E2 transition strengths. The data also enable us to identify several proton-neutron-symmetric multiphonon states.

Original language	English
Article number	024307
Pages (from-to)	243071-2430719
Number of pages	2187649
Journal	Physical Review C - Nuclear Physics
Volume	67
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevC.67.024307
State	Published - Feb 1 2003

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Fransen, C., Pietralla, N., Ammar, Z., Bandyopadhyay, D., Boukharouba, N., Von Brentano, P., Dewald, A., Gableske, J., Gade, A., Jolie, J., Kneissl, U., Lesher, S. R., Lisetskiy, A. F., McEllistrem, M. T., Merrick, M., Pitz, H. H., Warr, N., Werner, V., & Yates, S. W. (2003). Comprehensive studies of low-spin collective excitations in 94Mo. Physical Review C - Nuclear Physics, 67(2), 243071-2430719. Article 024307. https://doi.org/10.1103/PhysRevC.67.024307

@article{6164c4c478444aaf81debf3322b361a4,

title = "Comprehensive studies of low-spin collective excitations in 94Mo",

abstract = "Excited low-spin states in 94Mo have been studied extensively with a combination of γ-ray spectroscopic techniques. We have performed photon scattering experiments, γγ coincidence measurements following the β+ decay of 94Tcm, in-beam γγ coincidence studies with the reaction 91Zr(α,n)94Mo, and 94Mo(n,n′ γ) measurements. These experiments yielded detailed information about the low-spin level scheme of 94Mo. From measured lifetimes, branching ratios, and multipole mixing ratios, many absolute transition strengths were determined. These data permitted the interpretation of several low-spin states in terms of collective excitations, that are not fully symmetric with respect to the proton-neutron degree of freedom, the so-called mixed-symmetry (MS) states: The one-phonon 2+ MS state and three members of an expected multiplet of two-phonon MS states were identified from absolute M l and E2 transition strengths. The data also enable us to identify several proton-neutron-symmetric multiphonon states.",

author = "C. Fransen and N. Pietralla and Z. Ammar and D. Bandyopadhyay and N. Boukharouba and \{Von Brentano\}, P. and A. Dewald and J. Gableske and A. Gade and J. Jolie and U. Kneissl and Lesher, \{S. R.\} and Lisetskiy, \{A. F.\} and McEllistrem, \{M. T.\} and M. Merrick and Pitz, \{H. H.\} and N. Warr and V. Werner and Yates, \{S. W.\}",

year = "2003",

month = feb,

day = "1",

doi = "10.1103/PhysRevC.67.024307",

language = "English",

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Fransen, C, Pietralla, N, Ammar, Z, Bandyopadhyay, D, Boukharouba, N, Von Brentano, P, Dewald, A, Gableske, J, Gade, A, Jolie, J, Kneissl, U, Lesher, SR, Lisetskiy, AF, McEllistrem, MT, Merrick, M, Pitz, HH, Warr, N, Werner, V & Yates, SW 2003, 'Comprehensive studies of low-spin collective excitations in 94Mo', Physical Review C - Nuclear Physics, vol. 67, no. 2, 024307, pp. 243071-2430719. https://doi.org/10.1103/PhysRevC.67.024307

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T1 - Comprehensive studies of low-spin collective excitations in 94Mo

AU - Fransen, C.

AU - Pietralla, N.

AU - Ammar, Z.

AU - Bandyopadhyay, D.

AU - Boukharouba, N.

AU - Von Brentano, P.

AU - Dewald, A.

AU - Gableske, J.

AU - Gade, A.

AU - Jolie, J.

AU - Kneissl, U.

AU - Lesher, S. R.

AU - Lisetskiy, A. F.

AU - McEllistrem, M. T.

AU - Merrick, M.

AU - Pitz, H. H.

AU - Warr, N.

AU - Werner, V.

AU - Yates, S. W.

PY - 2003/2/1

Y1 - 2003/2/1

N2 - Excited low-spin states in 94Mo have been studied extensively with a combination of γ-ray spectroscopic techniques. We have performed photon scattering experiments, γγ coincidence measurements following the β+ decay of 94Tcm, in-beam γγ coincidence studies with the reaction 91Zr(α,n)94Mo, and 94Mo(n,n′ γ) measurements. These experiments yielded detailed information about the low-spin level scheme of 94Mo. From measured lifetimes, branching ratios, and multipole mixing ratios, many absolute transition strengths were determined. These data permitted the interpretation of several low-spin states in terms of collective excitations, that are not fully symmetric with respect to the proton-neutron degree of freedom, the so-called mixed-symmetry (MS) states: The one-phonon 2+ MS state and three members of an expected multiplet of two-phonon MS states were identified from absolute M l and E2 transition strengths. The data also enable us to identify several proton-neutron-symmetric multiphonon states.

AB - Excited low-spin states in 94Mo have been studied extensively with a combination of γ-ray spectroscopic techniques. We have performed photon scattering experiments, γγ coincidence measurements following the β+ decay of 94Tcm, in-beam γγ coincidence studies with the reaction 91Zr(α,n)94Mo, and 94Mo(n,n′ γ) measurements. These experiments yielded detailed information about the low-spin level scheme of 94Mo. From measured lifetimes, branching ratios, and multipole mixing ratios, many absolute transition strengths were determined. These data permitted the interpretation of several low-spin states in terms of collective excitations, that are not fully symmetric with respect to the proton-neutron degree of freedom, the so-called mixed-symmetry (MS) states: The one-phonon 2+ MS state and three members of an expected multiplet of two-phonon MS states were identified from absolute M l and E2 transition strengths. The data also enable us to identify several proton-neutron-symmetric multiphonon states.

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Comprehensive studies of low-spin collective excitations in 94Mo

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