Excitation of nuclear anharmonic vibrations in heavy-ion fusion reactions

Hagino, K.; Kuyucak, Serdar; Takigawa, N.

doi:10.1103/physrevc.57.1349

Cited by 36 publications

(39 citation statements)

References 72 publications

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“…Incidentally, heavy-ion fusion reactions provide an alternative way to probe the multi-phonon excitations in atomic nuclei, which significantly affect the subbarrier fusion cross sections [16][17][18][19] as illustrated by coupled-channels calculations [16,20,21]. Previous coupled-channels calculations for the fusion reaction of 16 O+ 208 Pb based on multi-harmonic-phonon excitations fail to reproduce the observed energy dependence of fusion cross sections [22][23][24], and overestimate the height of the main peak in the so called fusion barrier distribution [25].…”

Section: The Double-magic Nucleusmentioning

confidence: 99%

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Anharmonicity of multi–octupole-phonon excitations inPb208: Analysis with multireference covariant density functional theory and subbarrier fusion ofO16
Yao
¹
,
Hagino
²

2016
Phys. Rev. C
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We discuss anharmonicity of the multi-octupole-phonon states in 208 Pb based on a covariant density functional theory, by fully taking into account the interplay between the quadrupole and the octupole degrees of freedom. Our results indicate the existence of a large anharmonicity in the transition strengths, even though the excitation energies are similar to those in the harmonic limit. We also show that the quadrupole-shape fluctuation significantly enhances the fragmentation of the two-octupole-phonon states in 208 Pb. Using those transition strengths as inputs to coupled-channels calculations, we then discuss the fusion reaction of 16 O+ 208 Pb at energies around the Coulomb barrier. We show that the anharmonicity of the octupole vibrational excitation considerably improves previous coupled-channels calculations in the harmonic oscillator limit, significantly reducing the height of the main peak in the fusion barrier distribution.PACS numbers: 21.60. Jz, 21.10.Re, 25.70.Jj Collective vibrational excitations exist commonly in many-fermion systems [1]. Here, the concept of phonon is an important keystone to understand these excitations. For instance, for finite nuclear systems, vibrations of the nuclear surface are treated as elementary excitations [2,3]. The phonons for these vibrations are bosonlike in character and multiple excitations of the same type are possible, resulting in multi-phonon states [2]. In a harmonic vibration, all the levels in a phonon multiplet are degenerate in energy and the energy spacing between neighboring multiplets is a constant. The energy patterns close to such harmonic vibration have been observed in nearly spherical nuclei in different mass regions, and these states have been primarily interpreted as multipole phonon states [2,4,5].From a microscopic viewpoint, however, the collective excitations are generated by a coherent superposition of quasiparticle excitations of fermions in orbits close to the Fermi surface. The Pauli principle correction, together with residual interactions among phonons (that is, modemode couplings), modifies the structure of multi-phonon states and make them highly fragmented [6]. To assess the degree of such anharmonicity is a fundamental question in nuclear physics, that needs to be studied more extensively. In particular, we mention that recent studies on the anharmonicity in the multi-quadrupole-phonon states have questioned the concept of low-energy vibrational modes in atomic nuclei [7,8]. The double-magic nucleus208 Pb provides an ideal laboratory to examine the concept of multi-octupolephonon excitations in nuclear systems, as the first excited 3 − state of this nucleus has long been interpreted as a collective one-octupole-phonon state [9]. In the past decades, several experimental searches for the twooctupole-phonon (TOP) states in 208 Pb have been carried out [10][11][12][13]. Even though many of the TOP members have been identified, the multi-phonon excitations in 208 Pb have not yet been understood completely. This is the case especia...

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Section: The Double-magic Nucleusmentioning

confidence: 99%

mentioning

confidence: 99%

Anharmonicity of multi–octupole-phonon excitations inPb208: Analysis with multireference covariant density functional theory and subbarrier fusion ofO16
Yao
¹
,
Hagino
²

2016
Phys. Rev. C
Self Cite
18
2
11
0
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“…Therefore, the conclusion in Refs. [12,13] remains the same, that is, the sign of the quadrupole moment of an excited state can be determined with heavyion subbarrier fusion reactions, when high precision experimental data are available. For the 58 Ni+ 58 Ni system shown in Fig.…”

Section: Fusion Of Ni Isotopesmentioning

confidence: 99%

“…In Refs. [12,13], the effect of anharmonicity on subbarrier fusion of 16 O+ 144,148 Sm has been investigated using the vibrational limit of interacting boson model (IBM). See also Ref.…”

Section: Introductionmentioning

confidence: 99%

“…[14] for an application of this method to large-angle quasi-elastic scattering of the 16 O+ 144 Sm system. Although the static quadrupole moment of the first excited state could be successfully extracted by analyzing the high precision experimental data with this approach [12,13], the application of IBM has several limitations for a global study. Firstly, the method is not applicable to doubly magic nuclei, as the number of bosons in IBM is estimated from the number of valence nucleons outside shell closures.…”

Section: Introductionmentioning

confidence: 99%

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Semimicroscopic modeling of heavy-ion fusion reactions with multireference covariant density functional theory

Hagino

Yao

2015

Phys. Rev. C

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We describe low-lying collective excitations of atomic nuclei with the multi-reference covariant density functional theory, and combine them with coupled-channels calculations for heavy-ion fusion reactions at energies around the Coulomb barrier. To this end, we use the calculated transition strengths among several collective states as inputs to the coupled-channels calculations. This approach provides a natural way to describe anharmonic multi-phonon excitations as well as a deviation of rotational excitations from a simple rigid rotor. We apply this method to subbarrier fusion reactions of 58 Ni+ 58 Ni, 58 Ni+ 60 Ni and 40 Ca+ 58 Ni systems. We find that the effect of anharmonicity tends to smear the fusion barrier distributions, better reproducing the experimental data compared to the calculations in the harmonic oscillator limit.

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Role of Barrier Modification and Nuclear Structure Effects in Sub-Barrier Fusion Dynamics of Various Heavy Ion Fusion Reactions

Gautam

Vinod

Kumar³

2017

Braz J Phys

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Excitation of nuclear anharmonic vibrations in heavy-ion fusion reactions

Cited by 36 publications

References 72 publications

Anharmonicity of multi–octupole-phonon excitations inPb208: Analysis with multireference covariant density functional theory and subbarrier fusion ofO16
Yao
¹
,
Hagino
²

2016
Phys. Rev. C
Self Cite
18
2
11
0
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Anharmonicity of multi–octupole-phonon excitations inPb208: Analysis with multireference covariant density functional theory and subbarrier fusion ofO16
Yao
¹
,
Hagino
²

2016
Phys. Rev. C
Self Cite
18
2
11
0
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Semimicroscopic modeling of heavy-ion fusion reactions with multireference covariant density functional theory

Role of Barrier Modification and Nuclear Structure Effects in Sub-Barrier Fusion Dynamics of Various Heavy Ion Fusion Reactions

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Excitation of nuclear anharmonic vibrations in heavy-ion fusion reactions

Cited by 36 publications

References 72 publications

Anharmonicity of multi–octupole-phonon excitations inPb208: Analysis with multireference covariant density functional theory and subbarrier fusion ofO16Yao1, Hagino2 2016Phys. Rev. CSelf Cite182110View full textAdd to dashboardCite

Anharmonicity of multi–octupole-phonon excitations inPb208: Analysis with multireference covariant density functional theory and subbarrier fusion ofO16Yao1, Hagino2 2016Phys. Rev. CSelf Cite182110View full textAdd to dashboardCite

Semimicroscopic modeling of heavy-ion fusion reactions with multireference covariant density functional theory

Role of Barrier Modification and Nuclear Structure Effects in Sub-Barrier Fusion Dynamics of Various Heavy Ion Fusion Reactions

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Anharmonicity of multi–octupole-phonon excitations inPb208: Analysis with multireference covariant density functional theory and subbarrier fusion ofO16
Yao
¹
,
Hagino
²

2016
Phys. Rev. C
Self Cite
18
2
11
0
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Anharmonicity of multi–octupole-phonon excitations inPb208: Analysis with multireference covariant density functional theory and subbarrier fusion ofO16
Yao
¹
,
Hagino
²

2016
Phys. Rev. C
Self Cite
18
2
11
0
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