Abstract
New rotational bands built on the ν(h_{11/2}) configuration have been identified in ^{105}Pd. Two bands built on this configuration show the characteristics of transverse wobbling: the ΔI=1 transitions between them have a predominant E2 component and the wobbling energy decreases with increasing spin. The properties of the observed wobbling bands are in good agreement with theoretical results obtained using constrained triaxial covariant density functional theory and quantum particle rotor model calculations. This provides the first experimental evidence for transverse wobbling bands based on a one-neutron configuration, and also represents the first observation of wobbling motion in the A∼100 mass region.
Highlights
New rotational bands built on the νðh11=2Þ configuration have been identified in 105Pd
Two bands built on this configuration show the characteristics of transverse wobbling: the ΔI 1⁄4 1 transitions between them have a predominant E2 component and the wobbling energy decreases with increasing spin
This provides the first experimental evidence for transverse wobbling bands based on a one-neutron configuration, and represents the first observation of wobbling motion in the A ∼ 100 mass region
Summary
New rotational bands built on the νðh11=2Þ configuration have been identified in 105Pd. This provides the first experimental evidence for transverse wobbling bands based on a one-neutron configuration, and represents the first observation of wobbling motion in the A ∼ 100 mass region.
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