Odd-odd nuclei as the core-particle-hole systems and chirality

Rohoziński, S. G.; Próchniak, L.; Starosta, K.; Droste, Ch.

doi:10.1140/epja/i2011-11090-7

Cited by 14 publications

(12 citation statements)

References 32 publications

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“…In addition, it is noted that the numerator in the formulas of the mass parameters in Eqs. (14)(15)(16)(17) and (20) are proportional to ω 2 as shown in…”

Section: Mass Parametersmentioning

confidence: 99%

“…Theoretically, many approaches have been developed to investigate nuclear chirality and wobbling motion, such as the particle rotor model (PRM) [1,6,[13][14][15][16][17][18][19][20][21][22][23][24][25][26], the tilted axis cranking model (TAC) [1,12,[27][28][29], the tilted axis cranking plus random phase approximation (TAC+RPA) [30][31][32][33][34][35][36][37][38][39][40], the interacting boson fermion-fermion model (IBFFM) [41], the pair truncated shell model (PTSM) [42], and the projected shell model (PSM) [43]. The PRM is a quantal model, where the spin is a good quantum number and the quantum tunnelings between the partner bands are obtained automatically.…”

Section: Introductionmentioning

confidence: 99%

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Two-dimensional collective Hamiltonian for chiral and wobbling modes

et al. 2016

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A two-dimensional collective Hamiltonian (2DCH) on both azimuth and polar motions in triaxial nuclei is proposed to investigate the chiral and wobbling modes. In the 2DCH, the collective potential and the mass parameters are determined from three-dimensional tilted axis cranking (TAC) calculations. The broken chiral and signature symmetries in the TAC solutions are restored by the 2DCH. The validity of the 2DCH is illustrated with a triaxial rotor (γ = −30 • ) coupling to one h 11/2 proton particle and one h 11/2 neutron hole. By diagonalizing the 2DCH, the angular momenta and energy spectra are obtained. These results agree with the exact solutions of the particle rotor model (PRM) at high rotational frequencies. However, at low frequencies, the energies given by the 2DCH are larger than those by the PRM due to the underestimation of the mass parameters.In addition, with increasing angular momentum, the transitions from the chiral vibration to chiral rotation and further to longitudinal wobbling motion have been presented in the 2DCH.

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“…In addition, it is noted that the numerator in the formulas of the mass parameters in Eqs. (14)(15)(16)(17) and (20) are proportional to ω 2 as shown in…”

Section: Mass Parametersmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Two-dimensional collective Hamiltonian for chiral and wobbling modes

et al. 2016

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show abstract

“…Many theoretical approaches have been developed and applied to investigate nuclear chirality, such as the particle rotor model (PRM) [1,[38][39][40][41][42][43][44][45][46], the tilted axis cranking model (TAC) [1,[47][48][49][50], the interacting boson fermionfermion model (IBFFM) [51], and the projected shell model (PSM) [52]. In the mean-field level, the microscopic TAC approach can determine selfconsistently the orientation of angular momentum vector and can be easily applied to the multi-particle configurations.…”

Section: Introductionmentioning

confidence: 99%

Progress in Two-dimension Collective Hamiltonian for Chiral Modes

Xin-rong¹,

Zhang²

2018

Acta Phys. Pol. B Proc. Suppl.

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“…Theoretically, many approaches have been come up to investigate nuclear chirality, such as the particle rotor model (PRM) [1,25,30,[58][59][60][61][62][63][64][65][66][67][68][69][70][71][72][73][74][75][76], the tilted axis cranking model (TAC) [1,[77][78][79], the tilted axis cranking plus random phase approximation (TAC+RPA) [39,80], the interacting boson fermion-fermion model (IBFFM) [37,40,[81][82][83][84], pair truncated shell model (PTSM) [85][86][87], projected shell model (PSM) [88]. Recently, based on the TAC, a microscopical collective Hamiltonian was constructed and applied to the unified description of chiral vibration and rotation [89].…”

Section: Introductionmentioning

confidence: 99%

Chiral geometry in multiple chiral doublet bands

张灏

陈启博

2016

Chinese Phys. C

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The chiral geometry of the multiple chiral doublet bands with identical configuration is discussed for different triaxial deformation parameters γ in the particle rotor model with πh 11/2 ⊗ νh −1 11/2 . The energy spectra, electromagnetic transition probabilities B(M 1) and B(E2), angular momenta, and K-distributions are studied. It is demonstrated that the chirality still remains not only in the yrast and yrare bands, but also in the two higher excited bands when γ deviates from 30 • . The chiral geometry relies significantly on γ, and the chiral geometry of the two higher excited partner bands is not as good as that of the yrast and yrare doublet bands.

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Odd-odd nuclei as the core-particle-hole systems and chirality

Cited by 14 publications

References 32 publications

Two-dimensional collective Hamiltonian for chiral and wobbling modes

Two-dimensional collective Hamiltonian for chiral and wobbling modes

Progress in Two-dimension Collective Hamiltonian for Chiral Modes

Chiral geometry in multiple chiral doublet bands

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