Add to ORKGHigh precision (p,t) studies of the deformed nucleus 158Gd allowed the observation of 13 excited 0+ states below an excitation energy of 3.1 MeV. This high density of low energy states, and particularly their measured B(E2) transition strengths to the first excited 2+ state challenge nuclear models. The pseudo SU(3) model, which successfully describes many excited bands in Dy isotopes, is used to analyze this nuclei. We have fairly good reproduction of most of the states but the absence of actively including nucleons occupying intruders orbits may be the reason for the observed limitations of the model
By means of the (p, t) reaction we studied the excitation spectra of 0+ states in the deformed nucle...
Abstract—Excited states in the deformed nucleus 168Er have been studied with high energy resolution ...
Many efforts have been made in nuclear structure physics to interpret the nature of low-lying excite...
Recent high resolution (p; t) experiments have established the existence of a large number of low-ly...
Excited 0+ states are studied in the framework of the projected shell model, aiming at understanding...
The puzzling nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted...
The nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted new att...
Excited K?=0+ states in 156,158,160,162 Gd isotopes are studied by using the pairing plus quadrupole...
8 pages, 6 figuresNormal parity bands are studied in 157Gd, 163Dy and 169Tm using the pseudo SU(3) s...
8 pages, 6 figuresNormal parity bands are studied in 157Gd, 163Dy and 169Tm using the pseudo SU(3) s...
8 pages, 6 figuresNormal parity bands are studied in 157Gd, 163Dy and 169Tm using the pseudo SU(3) s...
8 pages, 6 figuresNormal parity bands are studied in 157Gd, 163Dy and 169Tm using the pseudo SU(3) s...
The 160Dy nucleus is classified as deformed nucleus (\beta=0.23) and has quite a complicated scheme ...
The nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted new atte...
The 160Dy nucleus is classified as deformed nucleus (\beta=0.23) and has quite a complicated scheme ...
By means of the (p, t) reaction we studied the excitation spectra of 0+ states in the deformed nucle...
Abstract—Excited states in the deformed nucleus 168Er have been studied with high energy resolution ...
Many efforts have been made in nuclear structure physics to interpret the nature of low-lying excite...
Recent high resolution (p; t) experiments have established the existence of a large number of low-ly...
Excited 0+ states are studied in the framework of the projected shell model, aiming at understanding...
The puzzling nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted...
The nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted new att...
Excited K?=0+ states in 156,158,160,162 Gd isotopes are studied by using the pairing plus quadrupole...
8 pages, 6 figuresNormal parity bands are studied in 157Gd, 163Dy and 169Tm using the pseudo SU(3) s...
8 pages, 6 figuresNormal parity bands are studied in 157Gd, 163Dy and 169Tm using the pseudo SU(3) s...
8 pages, 6 figuresNormal parity bands are studied in 157Gd, 163Dy and 169Tm using the pseudo SU(3) s...
8 pages, 6 figuresNormal parity bands are studied in 157Gd, 163Dy and 169Tm using the pseudo SU(3) s...
The 160Dy nucleus is classified as deformed nucleus (\beta=0.23) and has quite a complicated scheme ...
The nature of 0+ excitations, especially in transitional and deformed nuclei, has attracted new atte...
The 160Dy nucleus is classified as deformed nucleus (\beta=0.23) and has quite a complicated scheme ...
By means of the (p, t) reaction we studied the excitation spectra of 0+ states in the deformed nucle...
Abstract—Excited states in the deformed nucleus 168Er have been studied with high energy resolution ...
Many efforts have been made in nuclear structure physics to interpret the nature of low-lying excite...