2019
DOI: 10.1088/1674-1137/43/9/094104
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Energy staggering parameters in nuclear magnetic rotational bands *

Abstract: The systematics of energy staggering for the magnetic rotational bands with M 1 and E2 transition properties strictly consistent with the features of good candidates of magnetic rotational bands in the A ∼ 80, 110, 130 and 190 mass regions are presented. The regularities exhibited by these bands concerning the staggering parameter which increases with increasing spin are in agreement with the semiclassical description of shears mechanism. In addition, the abnormal behaviours in the backbend regions or close to… Show more

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Cited by 4 publications
(6 citation statements)
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References 92 publications
(183 reference statements)
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“…( ) , we can deduce the formula S(I) ∝ 1 − (2I 0 + 1)/2I, which supports the fact that S(I) has an increasing trend with increasing spin [2,323]. Moreover, S(I) decreases as a function of spin in 83,85 Rb, 86 Sr, 135 Te, 133 Pr, 134 Nd, 144 Gd, 191 Pb and 198 Bi.…”
Section: The Dynamic Moment-of-inertia Versus Rotational Frequencysupporting
confidence: 75%
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“…( ) , we can deduce the formula S(I) ∝ 1 − (2I 0 + 1)/2I, which supports the fact that S(I) has an increasing trend with increasing spin [2,323]. Moreover, S(I) decreases as a function of spin in 83,85 Rb, 86 Sr, 135 Te, 133 Pr, 134 Nd, 144 Gd, 191 Pb and 198 Bi.…”
Section: The Dynamic Moment-of-inertia Versus Rotational Frequencysupporting
confidence: 75%
“…However, signature splitting is observed in many bands, such as in 105, 109 Ag, 102,104 Cd, 135 Ce, 142 Eu, 144 Dy, 193,195,196 Hg, and 198 Bi (No judgement on the presence or absence of splitting could however be made in many cases where only 4−5 levels have been observed). This signature splitting of S(I) is usually considered a sign of the collective rotation, which indicates a competition between the shear mechanism and collective motion [323,324]. Additionally, it can be seen that S(I) in most MR bands increases with increasing spin except for the band-crossing regions.…”
Section: The Kinematic Moment-of-inertia Versus Rotational Frequencymentioning
confidence: 91%
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“…During the past few decades, the relativistic mean field (RMF) theory has been a great success in describing properties of nuclei and many nuclear phenomena [17,[68][69][70][71]. Based on the RMF theory, the tilted axis cranking relativistic mean-field (TAC-RMF) theory has been developed for describing many nuclear rotational phenomenon such as magnetic, antimagnetic and chiral rotation [17,57,62,72,73]. In the TAC-RMF theory, nuclei are characterized by the relativistic fields S(r) and V µ (r) in the Dirac equation in the rotating frame with a constant angular velocity vector Ω as…”
Section: Introductionmentioning
confidence: 99%
“…To further investigate the configuration of the doublet bands in 120 I, TAC-RMF calculations were performed. In the past few decades, the relativistic mean field (RMF) theory has had great success in describing properties of nuclei and numerous nuclear phenomena [17,[68][69][70][71]. Based on the RMF theory, the tilted axis cranking relativistic mean-field (TAC-RMF) theory was developed to describe numerous nuclear rotational phenomenona, such as magnetic, antimagnetic, and chiral rotation [17,38,57,62,72].…”
mentioning
confidence: 99%