Shell structure and orbit bifurcations in finite fermion systems

Magner, A. G.; Yatsyshyn, I. S.; Arita, Ken–ichiro; Brack, Matthias

doi:10.1134/s1063778811100061

Cited by 30 publications

(201 citation statements)

References 64 publications

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“…This will enable us to understand more properly the shape dynamics of the finite fermion systems. In particular, the improved stationary phase method can be applied to describe the deformed shell structures where bifurcations play an essential role in formations of the superdeformed minima along a potential energy valley [10,11]. One of the remarkable tasks might be to clarify, in terms of the symmetry-breaking (restoration) and bifurcation phenomena, the reasons of the exotic deformations such as the octupole and tetrahedral ones within the suggested ISPM.…”

Section: Discussionmentioning

confidence: 99%

“…For definiteness, we will consider first a simple bifurcation defined as a caustic point of the first order [Eqs. (10) and (11)] where the degeneracy parameter K is locally increased by one. In the SPM, after performing exact 2 We call the nth-order ISPM the ISPMn, in which we use the expansion of the phase integral Φ up to the nth-order terms and the amplitude up to the (n−2)th order near the stationary point.…”

Section: Symmetry-breaking and Bifurcationsmentioning

confidence: 99%

“…MP is defined as the sum of this asymptotic part (55) and the argument of the complex density amplitude (51) [10][11][12][13][14]. The total index µ (tot) MP behaves as a smooth function of the energy E and the power parameter α through the bifurcation point.…”

Section: B Three-parameter Po Familiesmentioning

confidence: 99%

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Semiclassical catastrophe theory of simple bifurcations

Magner

Arita

2017

Phys. Rev. E

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The Fedoriuk-Maslov catastrophe theory of caustics and turning points is extended to solve the bifurcation problems by the improved stationary phase method (ISPM). The trace formulas for the radial power-law (RPL) potentials are presented by the ISPM based on the second-and thirdorder expansion of the classical action near the stationary point. A considerable enhancement of contributions of the two orbits (pair of consisting of the parent and newborn orbits) at their bifurcation is shown. The ISPM trace formula is proposed for a simple bifurcation scenario of Hamiltonian systems with continuous symmetries, where the contributions of the bifurcating parent orbits vanish upon approaching the bifurcation point due to the reduction of the end-point manifold. This occurs since the contribution of the parent orbits is included in the term corresponding to the family of the newborn daughter orbits. Taking this feature into account, the ISPM level densities calculated for the RPL potential model are shown to be in good agreement with the quantum results at the bifurcations and asymptotically far from the bifurcation points.

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Section: Discussionmentioning

confidence: 99%

Section: Symmetry-breaking and Bifurcationsmentioning

confidence: 99%

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Semiclassical catastrophe theory of simple bifurcations

Magner

Arita

2017

Phys. Rev. E

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“…All considered potentials are axially symmetric but they are the same nonintegrable ones in the plane of the symmetry axis. The degree of symmetry which determines the classical degeneracy [22,27,28] K (see introduction) for the case of the full spectra (Figs. 1, 3, 5) is higher than for the fixed angular momentum m (K = 0).…”

Section: Discussionmentioning

confidence: 99%

Chaoticity and shell effects in the nearest-neighbor distributions for an axially-symmetric potential

Błocki¹,

Magner

2012

Phys. Rev. C

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Statistics of the single-particle levels in a deformed axially symmetric Woods-Saxon potential is analyzed in terms of the Poisson and Wigner nearest-neighbor spacing distributions for several deformations and multipolarities of the surface distortions. We found the significant differences of all the distributions with a fixed value of the angular momentum projection of the particle on the symmetry axis, more closely to the Wigner distribution, in contrast to the full spectra with Poisson-like behavior. The shell effects in the nearest-neighbor spacing distributions, for both small and large deformations of the surface are analyzed.

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“…Some preliminary results for the spherical power-law potential using the improved stationary phase method have been reported in Ref. [38]. Application of a uniform approximation to this problem is also in progress.…”

Section: Discussionmentioning

confidence: 99%

Periodic-orbit approach to nuclear shell structures with power-law potential models: Bridge orbits and prolate-oblate asymmetry

Arita

2012

Phys. Rev. C

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Deformed shell structures in nuclear mean-field potentials are systematically investigated as functions of deformation and surface diffuseness. As the mean-field model to investigate nuclear shell structures in a wide range of mass numbers, we propose the radial power-law potential model, V ∝ r α , which enables us a simple semiclassical analysis by the use of its scaling property. We find that remarkable shell structures emerge at certain combinations of deformation and diffuseness parameters, and they are closely related to the periodicorbit bifurcations. In particular, significant roles of the "bridge orbit bifurcations" for normal and superdeformed shell structures are pointed out. It is shown that the prolate-oblate asymmetry in deformed shell structures is clearly understood from the contribution of the bridge orbit to the semiclassical level density. The roles of bridge orbit bifurcations in the emergence of superdeformed shell structures are also discussed.

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Shell structure and orbit bifurcations in finite fermion systems

Cited by 30 publications

References 64 publications

Semiclassical catastrophe theory of simple bifurcations

Semiclassical catastrophe theory of simple bifurcations

Chaoticity and shell effects in the nearest-neighbor distributions for an axially-symmetric potential

Periodic-orbit approach to nuclear shell structures with power-law potential models: Bridge orbits and prolate-oblate asymmetry

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