Wobbling Motion in the multi-bands crossing region: dynamical coupling mode between high- and low-K states
Abstract
We analyze a mechanism of coupling of high- and low-K bands in terms of a dynamical treatment for nuclear rotations, i.e.,wobbling motion. The wobbling states are produced through the generator coordinate method after angular momentum projection ( GCM-after-AMP), in which the intrinsic states are constructed through fully self-consistent calculations by the 2d-cranked (or tilted-axis-cranked) HFB method . In particular, the phenomena of ``signature inversion'' and ``signature splitting'' in the t-band (tilted rotational band) are explained in terms of the wobbling model. % Our calculations will be compared with new data for in-band E2 transition rates in 182Os, which may shed light on the mechanism of the anomalous K=25 isomer decay, directly to the yrast band.
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