Multi-quasiparticle high-K isomeric states in deformed nuclei

F. R. Xu; Y. Shi; H. L. Liu; W. Y. Liang; P. M. Walker; G. Dracoulis

doi:10.1051/epjconf/201612301002

Multi-quasiparticle high-K isomeric states in deformed nuclei

F. R. Xu, Y. Shi, H. L. Liu, W. Y. Liang, P. M. Walker, G. Dracoulis

Research output: Contribution to journal › Conference article › peer-review

Abstract

In the past years, we have made many theoretical investigations on multi-quasiparticle high-K isomeric states. A deformation-pairing-configuration self-consistent calculation has been developed by calculating a configuration-constrained multi-quasiparticle potential energy surface (PES). The specific single-particle orbits that define the high-K configuration are identified and tracked (adiabatically blocked) by calculating the average Nilsson numbers. The deformed Woods-Saxon potential was taken to give single-particle orbits. The configuration-constrained PES takes into account the shape polarization effect. Such calculations give good results on excitation energies, deformations and other structure information about multi-quasiparticle high-K isomeric states. Many different mass regions have been investigated.

Original language	English
Article number	01002
Journal	EPJ Web of Conferences
Volume	123
DOIs	https://doi.org/10.1051/epjconf/201612301002
Publication status	Published - 5 Sept 2016
Event	2015 Heavy Ion Accelerator Symposium, HIAS 2015 - Canberra, Australia Duration: 14 Sept 2015 → 18 Sept 2015

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title = "Multi-quasiparticle high-K isomeric states in deformed nuclei",

abstract = "In the past years, we have made many theoretical investigations on multi-quasiparticle high-K isomeric states. A deformation-pairing-configuration self-consistent calculation has been developed by calculating a configuration-constrained multi-quasiparticle potential energy surface (PES). The specific single-particle orbits that define the high-K configuration are identified and tracked (adiabatically blocked) by calculating the average Nilsson numbers. The deformed Woods-Saxon potential was taken to give single-particle orbits. The configuration-constrained PES takes into account the shape polarization effect. Such calculations give good results on excitation energies, deformations and other structure information about multi-quasiparticle high-K isomeric states. Many different mass regions have been investigated.",

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AU - Xu, F. R.

AU - Shi, Y.

AU - Liu, H. L.

AU - Liang, W. Y.

AU - Walker, P. M.

AU - Dracoulis, G.

N1 - Publisher Copyright: © The Authors, published by EDP Sciences.

PY - 2016/9/5

Y1 - 2016/9/5

N2 - In the past years, we have made many theoretical investigations on multi-quasiparticle high-K isomeric states. A deformation-pairing-configuration self-consistent calculation has been developed by calculating a configuration-constrained multi-quasiparticle potential energy surface (PES). The specific single-particle orbits that define the high-K configuration are identified and tracked (adiabatically blocked) by calculating the average Nilsson numbers. The deformed Woods-Saxon potential was taken to give single-particle orbits. The configuration-constrained PES takes into account the shape polarization effect. Such calculations give good results on excitation energies, deformations and other structure information about multi-quasiparticle high-K isomeric states. Many different mass regions have been investigated.

AB - In the past years, we have made many theoretical investigations on multi-quasiparticle high-K isomeric states. A deformation-pairing-configuration self-consistent calculation has been developed by calculating a configuration-constrained multi-quasiparticle potential energy surface (PES). The specific single-particle orbits that define the high-K configuration are identified and tracked (adiabatically blocked) by calculating the average Nilsson numbers. The deformed Woods-Saxon potential was taken to give single-particle orbits. The configuration-constrained PES takes into account the shape polarization effect. Such calculations give good results on excitation energies, deformations and other structure information about multi-quasiparticle high-K isomeric states. Many different mass regions have been investigated.

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DO - 10.1051/epjconf/201612301002

M3 - Conference article

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SN - 2101-6275

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JO - EPJ Web of Conferences

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T2 - 2015 Heavy Ion Accelerator Symposium, HIAS 2015

Y2 - 14 September 2015 through 18 September 2015

ER -

Multi-quasiparticle high-K isomeric states in deformed nuclei

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