The [Formula: see text] band in [Formula: see text]Pd is investigated by the cranking covariant density functional theory (CDFT) with the particle-number-conservation shell-model-like approach (SLAP) to treat the pairing correlations. The experimental [Formula: see text], moments of inertia, and the total angular momentum are well reproduced by our calculation. The deformations for neutrons, protons, and the whole nucleus behave in a similar way with the decreasing of [Formula: see text] and the tiny change of [Formula: see text] with increasing rotational frequency [Formula: see text] from 0.2 to 0.6[Formula: see text]MeV. The features of the antimagnetic rotation (AMR) are identified by above calculation results. To conclude, the configuration of AMR for [Formula: see text]Pd given by the cranking CDFT-SLAP is [Formula: see text]([Formula: see text])[Formula: see text]. Furthermore, the configuration of [Formula: see text]([Formula: see text])[Formula: see text], which presents the experimental result of low spins, is also presented.
The Hartmann wavefront sensor can measure the phase change of atmospheric turbulence in real time and realize the measurement of the distorted wavefront signal of atmospheric turbulence. However, existing Hartmann wavefront sensor microlens arrays are generally small, which limits their spatial resolution capabilities. By introducing compressed sensing technology into wavefront detection, this paper breaks through the limitations of the traditional Nyquist sampling theorem and achieves higher resolution spatial wavefront detection with a smaller microlens array.
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