Add to ORKGConfiguration-constrained nuclear shape calculations are used to show that reinforcing neutron and proton orbital structures create exceptional conditions for the formation of multiquasiparticle isomers in neutron-rich hafnium isotopes, with axially symmetric, prolate shapes. Highly excited, long-lived states are predicted. However, at angular momenta close to 40 (h) over bar, orbital alignment effects for collective oblate rotation lend to a deep potential minimum that competes energetically with the prolate multiquasiparticle states.Physics, NuclearSCI(E)38ARTICLE1null6
We investigate the role of two-quasiparticle isomeric states along the proton drip line, using confi...
AbstractRotation-aligned isomeric states and associated oblate collective sequences are established ...
International audienceDeformation-energy surfaces of 54 even-even isotopes of Pt, Hg and Pb nuclei w...
The structures of isomeric and collective states in neutron-rich hafnium isotopes have been investig...
Isomers and their roles in discovery and as probes of nuclear structure are discussed, with a focus ...
The mass region of rare-earth nuclei in the nuclear chart is riddled with well-deformed nuclei, exhi...
Configuration-constrained calculations of potential-energy surfaces in even-even superheavy nuclei r...
The J{sup {pi}} = 16{sup +} isomeric state in {sup 178}Hf(E{sub x} = 2.447 MeV), which has a halflif...
Using the pairing-deformation-frequency self-consistent total-Routhiansurface and configuration-cons...
High-spin isomeric states in proton-rich A similar to 190 nuclei have been investigated using config...
New high-K isomers are populated in {sup 180,181,182}Hf nuclei via inelastic excitation and transfer...
In this paper, we have reviewed the calculation of ground states energy level up to spin 14+, electr...
Configuration-constrained calculations of potential-energy surfaces in even-even superheavy nuclei r...
Excited states of atomic nuclei can have long half lives, due to the angular-momentum couplings of u...
High-spin isomers were systematically studied in N = 83 isotones. These isomers are of stretch coupl...
We investigate the role of two-quasiparticle isomeric states along the proton drip line, using confi...
AbstractRotation-aligned isomeric states and associated oblate collective sequences are established ...
International audienceDeformation-energy surfaces of 54 even-even isotopes of Pt, Hg and Pb nuclei w...
The structures of isomeric and collective states in neutron-rich hafnium isotopes have been investig...
Isomers and their roles in discovery and as probes of nuclear structure are discussed, with a focus ...
The mass region of rare-earth nuclei in the nuclear chart is riddled with well-deformed nuclei, exhi...
Configuration-constrained calculations of potential-energy surfaces in even-even superheavy nuclei r...
The J{sup {pi}} = 16{sup +} isomeric state in {sup 178}Hf(E{sub x} = 2.447 MeV), which has a halflif...
Using the pairing-deformation-frequency self-consistent total-Routhiansurface and configuration-cons...
High-spin isomeric states in proton-rich A similar to 190 nuclei have been investigated using config...
New high-K isomers are populated in {sup 180,181,182}Hf nuclei via inelastic excitation and transfer...
In this paper, we have reviewed the calculation of ground states energy level up to spin 14+, electr...
Configuration-constrained calculations of potential-energy surfaces in even-even superheavy nuclei r...
Excited states of atomic nuclei can have long half lives, due to the angular-momentum couplings of u...
High-spin isomers were systematically studied in N = 83 isotones. These isomers are of stretch coupl...
We investigate the role of two-quasiparticle isomeric states along the proton drip line, using confi...
AbstractRotation-aligned isomeric states and associated oblate collective sequences are established ...
International audienceDeformation-energy surfaces of 54 even-even isotopes of Pt, Hg and Pb nuclei w...