High-spin states, particle-hole structure, and linked smooth terminating bands in doubly odd [Formula Presented]

G. J. Lane; D. B. Fossan; C. J. Chiara; H. Schnare; J. M. Sears; J. F. Smith; I. Thorslund; P. Vaska; E. S. Paul; A. N. Wilson; J. N. Wilson; K. Hauschild; I. M. Hibbert; R. Wadsworth; A. V. Afanasjev; I. Ragnarsson

doi:10.1103/PhysRevC.58.127

High-spin states, particle-hole structure, and linked smooth terminating bands in doubly odd [Formula Presented]

G. J. Lane^*, D. B. Fossan, C. J. Chiara, H. Schnare, J. M. Sears, J. F. Smith, I. Thorslund, P. Vaska, E. S. Paul, A. N. Wilson, J. N. Wilson, K. Hauschild, I. M. Hibbert, R. Wadsworth, A. V. Afanasjev, I. Ragnarsson

^*Corresponding author for this work

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

Abstract

Excited states in [Formula Presented] have been observed with the Stony Brook array of six Compton-suppressed HPGe detectors and the [Formula Presented] reaction at 60 MeV using a thick target. New excited states which decay solely towards the [Formula Presented] ns, [Formula Presented] isomer have been identified using time-correlated spectroscopy. The previously known level scheme has also been extended and corrected. In total, five rotational bands are observed, consisting of the two previously known strongly coupled bands based upon one-particle–one-hole (1p-1h) proton excitations across the [Formula Presented] shell gap and three newly observed decoupled bands based upon 2p-2h proton excitations. The 1p-1h bands are interpreted as deformed rotors, although there is a possibility that a shears mechanism like that observed in the lead region may also play a role. Results from a thin-target measurement using the Eurogam-II spectrometer and the [Formula Presented] reaction at 150 MeV are also presented. These data have been used to extend the decoupled bands up to [Formula Presented], a spin regime where the bands exhibit the features of smooth band termination. The combined results from the two experiments have enabled two of the bands to be connected by discrete [Formula Presented]-ray transitions to the low-spin level scheme, thereby determining their spins and parities. This allows for a definitive comparison with the results of cranked Nilsson-Strutinsky calculations and excellent agreement is obtained. Further confirmation of the terminating band configuration assignments is obtained from an analysis of the relative alignment properties of pairs of bands in the chain [Formula Presented].

Original language	English
Pages (from-to)	127-149
Number of pages	23
Journal	Physical Review C - Nuclear Physics
Volume	58
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevC.58.127
Publication status	Published - 1 Jan 1998

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Lane, G. J., Fossan, D. B., Chiara, C. J., Schnare, H., Sears, J. M., Smith, J. F., Thorslund, I., Vaska, P., Paul, E. S., Wilson, A. N., Wilson, J. N., Hauschild, K., Hibbert, I. M., Wadsworth, R., Afanasjev, A. V., & Ragnarsson, I. (1998). High-spin states, particle-hole structure, and linked smooth terminating bands in doubly odd [Formula Presented]. Physical Review C - Nuclear Physics, 58(1), 127-149. https://doi.org/10.1103/PhysRevC.58.127

@article{c893b956faae43da8fec5042f6a426b0,

title = "High-spin states, particle-hole structure, and linked smooth terminating bands in doubly odd [Formula Presented]",

abstract = "Excited states in [Formula Presented] have been observed with the Stony Brook array of six Compton-suppressed HPGe detectors and the [Formula Presented] reaction at 60 MeV using a thick target. New excited states which decay solely towards the [Formula Presented] ns, [Formula Presented] isomer have been identified using time-correlated spectroscopy. The previously known level scheme has also been extended and corrected. In total, five rotational bands are observed, consisting of the two previously known strongly coupled bands based upon one-particle–one-hole (1p-1h) proton excitations across the [Formula Presented] shell gap and three newly observed decoupled bands based upon 2p-2h proton excitations. The 1p-1h bands are interpreted as deformed rotors, although there is a possibility that a shears mechanism like that observed in the lead region may also play a role. Results from a thin-target measurement using the Eurogam-II spectrometer and the [Formula Presented] reaction at 150 MeV are also presented. These data have been used to extend the decoupled bands up to [Formula Presented], a spin regime where the bands exhibit the features of smooth band termination. The combined results from the two experiments have enabled two of the bands to be connected by discrete [Formula Presented]-ray transitions to the low-spin level scheme, thereby determining their spins and parities. This allows for a definitive comparison with the results of cranked Nilsson-Strutinsky calculations and excellent agreement is obtained. Further confirmation of the terminating band configuration assignments is obtained from an analysis of the relative alignment properties of pairs of bands in the chain [Formula Presented].",

author = "Lane, {G. J.} and Fossan, {D. B.} and Chiara, {C. J.} and H. Schnare and Sears, {J. M.} and Smith, {J. F.} and I. Thorslund and P. Vaska and Paul, {E. S.} and Wilson, {A. N.} and Wilson, {J. N.} and K. Hauschild and Hibbert, {I. M.} and R. Wadsworth and Afanasjev, {A. V.} and I. Ragnarsson",

year = "1998",

month = jan,

day = "1",

doi = "10.1103/PhysRevC.58.127",

language = "English",

volume = "58",

pages = "127--149",

journal = "Physical Review C - Nuclear Physics",

issn = "0556-2813",

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Lane, GJ, Fossan, DB, Chiara, CJ, Schnare, H, Sears, JM, Smith, JF, Thorslund, I, Vaska, P, Paul, ES, Wilson, AN, Wilson, JN, Hauschild, K, Hibbert, IM, Wadsworth, R, Afanasjev, AV & Ragnarsson, I 1998, 'High-spin states, particle-hole structure, and linked smooth terminating bands in doubly odd [Formula Presented]', Physical Review C - Nuclear Physics, vol. 58, no. 1, pp. 127-149. https://doi.org/10.1103/PhysRevC.58.127

TY - JOUR

T1 - High-spin states, particle-hole structure, and linked smooth terminating bands in doubly odd [Formula Presented]

AU - Lane, G. J.

AU - Fossan, D. B.

AU - Chiara, C. J.

AU - Schnare, H.

AU - Sears, J. M.

AU - Smith, J. F.

AU - Thorslund, I.

AU - Vaska, P.

AU - Paul, E. S.

AU - Wilson, A. N.

AU - Wilson, J. N.

AU - Hauschild, K.

AU - Hibbert, I. M.

AU - Wadsworth, R.

AU - Afanasjev, A. V.

AU - Ragnarsson, I.

PY - 1998/1/1

Y1 - 1998/1/1

N2 - Excited states in [Formula Presented] have been observed with the Stony Brook array of six Compton-suppressed HPGe detectors and the [Formula Presented] reaction at 60 MeV using a thick target. New excited states which decay solely towards the [Formula Presented] ns, [Formula Presented] isomer have been identified using time-correlated spectroscopy. The previously known level scheme has also been extended and corrected. In total, five rotational bands are observed, consisting of the two previously known strongly coupled bands based upon one-particle–one-hole (1p-1h) proton excitations across the [Formula Presented] shell gap and three newly observed decoupled bands based upon 2p-2h proton excitations. The 1p-1h bands are interpreted as deformed rotors, although there is a possibility that a shears mechanism like that observed in the lead region may also play a role. Results from a thin-target measurement using the Eurogam-II spectrometer and the [Formula Presented] reaction at 150 MeV are also presented. These data have been used to extend the decoupled bands up to [Formula Presented], a spin regime where the bands exhibit the features of smooth band termination. The combined results from the two experiments have enabled two of the bands to be connected by discrete [Formula Presented]-ray transitions to the low-spin level scheme, thereby determining their spins and parities. This allows for a definitive comparison with the results of cranked Nilsson-Strutinsky calculations and excellent agreement is obtained. Further confirmation of the terminating band configuration assignments is obtained from an analysis of the relative alignment properties of pairs of bands in the chain [Formula Presented].

AB - Excited states in [Formula Presented] have been observed with the Stony Brook array of six Compton-suppressed HPGe detectors and the [Formula Presented] reaction at 60 MeV using a thick target. New excited states which decay solely towards the [Formula Presented] ns, [Formula Presented] isomer have been identified using time-correlated spectroscopy. The previously known level scheme has also been extended and corrected. In total, five rotational bands are observed, consisting of the two previously known strongly coupled bands based upon one-particle–one-hole (1p-1h) proton excitations across the [Formula Presented] shell gap and three newly observed decoupled bands based upon 2p-2h proton excitations. The 1p-1h bands are interpreted as deformed rotors, although there is a possibility that a shears mechanism like that observed in the lead region may also play a role. Results from a thin-target measurement using the Eurogam-II spectrometer and the [Formula Presented] reaction at 150 MeV are also presented. These data have been used to extend the decoupled bands up to [Formula Presented], a spin regime where the bands exhibit the features of smooth band termination. The combined results from the two experiments have enabled two of the bands to be connected by discrete [Formula Presented]-ray transitions to the low-spin level scheme, thereby determining their spins and parities. This allows for a definitive comparison with the results of cranked Nilsson-Strutinsky calculations and excellent agreement is obtained. Further confirmation of the terminating band configuration assignments is obtained from an analysis of the relative alignment properties of pairs of bands in the chain [Formula Presented].

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JO - Physical Review C - Nuclear Physics

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High-spin states, particle-hole structure, and linked smooth terminating bands in doubly odd [Formula Presented]

Abstract

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