[Formula Presented]-ray spectroscopy in [Formula Presented]

K. Starosta; C. J. Chiara; D. B. Fossan; T. Koike; D. R. LaFosse; G. J. Lane; J. M. Sears; J. F. Smith; A. J. Boston; P. J. Nolan; E. S. Paul; A. T. Semple; M. Devlin; D. G. Sarantites; I. Y. Lee; A. O. Macchiavelli

doi:10.1103/PhysRevC.61.034308

[Formula Presented]-ray spectroscopy in [Formula Presented]

K. Starosta, C. J. Chiara, D. B. Fossan, T. Koike, D. R. LaFosse, G. J. Lane, J. M. Sears, J. F. Smith, A. J. Boston, P. J. Nolan, E. S. Paul, A. T. Semple, M. Devlin, D. G. Sarantites, I. Y. Lee, A. O. Macchiavelli

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

Abstract

Excited states in [Formula Presented] have been studied using the [Formula Presented] evaporation channel from the [Formula Presented] reaction at a beam energy of 250 MeV. A thin-target experiment was carried out using GAMMASPHERE coupled with the MICROBALL charged-particle detector array and an array of neutron detectors. A complementary thick-target experiment was performed with the Stony Brook six-Ge-detector array in order to measure the lifetime of an [Formula Presented] isomer observed in the GAMMASPHERE data. The structure of [Formula Presented] at low spin is dominated by the yrast [Formula Presented] band, although a band assigned to the [Formula Presented] configuration is also observed. Four collective bands have been found at higher spins. Experimental results are compared to the odd-[Formula Presented] Te systematics and to core-quasiparticle and total Routhian surface calculations.

Original language	English
Number of pages	1
Journal	Physical Review C - Nuclear Physics
Volume	61
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevC.61.034308
Publication status	Published - 2000 Jan 1
Externally published	Yes

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1103/PhysRevC.61.034308

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Starosta, K., Chiara, C. J., Fossan, D. B., Koike, T., LaFosse, D. R., Lane, G. J., Sears, J. M., Smith, J. F., Boston, A. J., Nolan, P. J., Paul, E. S., Semple, A. T., Devlin, M., Sarantites, D. G., Lee, I. Y., & Macchiavelli, A. O. (2000). [Formula Presented]-ray spectroscopy in [Formula Presented]. Physical Review C - Nuclear Physics, 61(3). https://doi.org/10.1103/PhysRevC.61.034308

[Formula Presented]-ray spectroscopy in [Formula Presented]. / Starosta, K.; Chiara, C. J.; Fossan, D. B.; Koike, T.; LaFosse, D. R.; Lane, G. J.; Sears, J. M.; Smith, J. F.; Boston, A. J.; Nolan, P. J.; Paul, E. S.; Semple, A. T.; Devlin, M.; Sarantites, D. G.; Lee, I. Y.; Macchiavelli, A. O.

In: Physical Review C - Nuclear Physics, Vol. 61, No. 3, 01.01.2000.

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

Starosta, K. ; Chiara, C. J. ; Fossan, D. B. ; Koike, T. ; LaFosse, D. R. ; Lane, G. J. ; Sears, J. M. ; Smith, J. F. ; Boston, A. J. ; Nolan, P. J. ; Paul, E. S. ; Semple, A. T. ; Devlin, M. ; Sarantites, D. G. ; Lee, I. Y. ; Macchiavelli, A. O. / [Formula Presented]-ray spectroscopy in [Formula Presented]. In: Physical Review C - Nuclear Physics. 2000 ; Vol. 61, No. 3.

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abstract = "Excited states in [Formula Presented] have been studied using the [Formula Presented] evaporation channel from the [Formula Presented] reaction at a beam energy of 250 MeV. A thin-target experiment was carried out using GAMMASPHERE coupled with the MICROBALL charged-particle detector array and an array of neutron detectors. A complementary thick-target experiment was performed with the Stony Brook six-Ge-detector array in order to measure the lifetime of an [Formula Presented] isomer observed in the GAMMASPHERE data. The structure of [Formula Presented] at low spin is dominated by the yrast [Formula Presented] band, although a band assigned to the [Formula Presented] configuration is also observed. Four collective bands have been found at higher spins. Experimental results are compared to the odd-[Formula Presented] Te systematics and to core-quasiparticle and total Routhian surface calculations.",

author = "K. Starosta and Chiara, {C. J.} and Fossan, {D. B.} and T. Koike and LaFosse, {D. R.} and Lane, {G. J.} and Sears, {J. M.} and Smith, {J. F.} and Boston, {A. J.} and Nolan, {P. J.} and Paul, {E. S.} and Semple, {A. T.} and M. Devlin and Sarantites, {D. G.} and Lee, {I. Y.} and Macchiavelli, {A. O.}",

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AU - Paul, E. S.

AU - Semple, A. T.

AU - Devlin, M.

AU - Sarantites, D. G.

AU - Lee, I. Y.

AU - Macchiavelli, A. O.

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N2 - Excited states in [Formula Presented] have been studied using the [Formula Presented] evaporation channel from the [Formula Presented] reaction at a beam energy of 250 MeV. A thin-target experiment was carried out using GAMMASPHERE coupled with the MICROBALL charged-particle detector array and an array of neutron detectors. A complementary thick-target experiment was performed with the Stony Brook six-Ge-detector array in order to measure the lifetime of an [Formula Presented] isomer observed in the GAMMASPHERE data. The structure of [Formula Presented] at low spin is dominated by the yrast [Formula Presented] band, although a band assigned to the [Formula Presented] configuration is also observed. Four collective bands have been found at higher spins. Experimental results are compared to the odd-[Formula Presented] Te systematics and to core-quasiparticle and total Routhian surface calculations.

AB - Excited states in [Formula Presented] have been studied using the [Formula Presented] evaporation channel from the [Formula Presented] reaction at a beam energy of 250 MeV. A thin-target experiment was carried out using GAMMASPHERE coupled with the MICROBALL charged-particle detector array and an array of neutron detectors. A complementary thick-target experiment was performed with the Stony Brook six-Ge-detector array in order to measure the lifetime of an [Formula Presented] isomer observed in the GAMMASPHERE data. The structure of [Formula Presented] at low spin is dominated by the yrast [Formula Presented] band, although a band assigned to the [Formula Presented] configuration is also observed. Four collective bands have been found at higher spins. Experimental results are compared to the odd-[Formula Presented] Te systematics and to core-quasiparticle and total Routhian surface calculations.

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[Formula Presented]-ray spectroscopy in [Formula Presented]

Abstract

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