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Wobbling Motion in Triaxial Superdeformed Nuclei

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Presentation on theme: "Wobbling Motion in Triaxial Superdeformed Nuclei"— Presentation transcript:

1 Wobbling Motion in Triaxial Superdeformed Nuclei
china_matsuzaki.ppt 2019/4/26 Wobbling Motion in Triaxial Superdeformed Nuclei Masayuki Matsuzaki Fukuoka University of Education based on MM, Shimizu and Matsuyanagi, PR C65, (R) and C69,

2 Shell gap  stable configurations
Superdeformation single particle energy 2:1 2 deformation

3 Shell gaps in Nilsson diagram at
neutron proton  Suggest triaxial superdeformation (TSD) around

4 γ deformation in rotating systems

5 R.Bengtsson, http://www.matfys.lth.se/~ragnar/TSD-ensyst.html
-----γ~+20゜ TSD 2 ND -----γ~-20゜ TSD 2 R.Bengtsson,

6 TSD (γ>0) TSD(γ<0) ND
R.Bengtsson,

7 Triaxial  rotations about 3 axes are possible  wobbling
“phonon” rot

8 TSD1: 0 phonon (yrast) TSD2: 1 phonon TSD3: 2 phonon TSD4: another conf.

9 γ~+20゜ contradicts irrotational ?

10 Rotating odd-mass nucleus can be regarded as “rotor plus 1qp”
1qp also carries moment of inertia Thus, inertia of the whole system should be considered (in contrast to PRM)

11

12 Irrotational + QP align   wobbling allowed

13

14 (If inertia are constant,
163 Lu Not ∝ω rot ! Automatically ω rot -dependent (If inertia are constant, )

15 163 Lu Extremely collective as an RPA solution but …

16 Parameterizations of triaxial deformation
γ(dens)=20°rather than γ(Nils)=20° resolves discrepancy in B(E2) ratio

17 TSD1: 0 phonon (yrast) TSD2: 1 phonon TSD3: 2 phonon TSD4: another conf.

18 indicates softening of potential
2 phonon 1 phonon indicates softening of potential  Removal of 1qp makes wobbling unstable

19 Summary ΔJx from QP alignment superimposed on irrot.-like inertia brings Jx > Jy for γ>0 --- This assures the existence of wobbling exc. Wobbling mode in 163Lu is naturally described semi-quantitatively in terms of RPA Anharmonicity of 2-phonon states suggests softening of potential surface

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