Nuclear fission: a review of experimental advances and phenomenology

Andreyev, A. N.; Nishio, K.; Schmidt, Karl‐Heinz

doi:10.1088/1361-6633/aa82eb

Cited by 157 publications

(102 citation statements)

References 458 publications

(1,462 reference statements)

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“…In Fig. 8, the Fourier peak of the quantum level density at the lengths of the prefragment diameter (2,1) and triangle (3,1) orbits are compared with the semiclassical amplitudes derived in [31], according to Eq. (21).…”

Section: Quantum-classical Correspondence In Fourier Transformationmentioning

confidence: 99%

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Semiclassical origin of asymmetric nuclear fission: nascent-fragment shell effect in periodic-orbit theory

Arita¹,

Ichikawa²,

Matsuyanagi³

2020

Phys. Scr.

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The origin of the asymmetry in the fragment mass distribution of low-energy nuclear fission is considered from the semiclassical point of view. Using the semiclassical periodic-orbit theory, one can define and quantify the shell effect associated with spatially localized nascent-fragment (prefragment) part of the potential. We investigate the roles of prefragments in the deformed shell effect using a simple cavity potential model, but with realistic shape degrees of freedom for describing the fission processes. The results suggest that the prefragment magic numbers play essential roles in determining the shapes at the fission saddles, which should have a close relation to the fragment mass distribution.

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Section: Quantum-classical Correspondence In Fourier Transformationmentioning

confidence: 99%

“…The solid (red) curves represent the quantum results, and the long-dashed (blue) curves represent the results of trace formula(10) and(15). The short-dashed (green) curves show the contribution of the triangle orbit family(3,1) in the prefragments (discussion will be conducted in Sec. 4.2).…”

mentioning

confidence: 99%

Semiclassical origin of asymmetric nuclear fission: nascent-fragment shell effect in periodic-orbit theory

Arita¹,

Ichikawa²,

Matsuyanagi³

2020

Phys. Scr.

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“…One of the many open questions regarding the fission process is related to the origin of the angular momentum of the fission fragments [1]. It is thus desirable to obtain information on the angular momentum of the fragments as this can provide insight into the properties of the dynamical evolution of the fissioning nucleus from the saddle point until its descent to scission [2].…”

Section: Introductionmentioning

confidence: 99%

“…As pointed out in a recent review by Andreyev et al [1], although it is well established that the fission fragments carry a considerable amount of angular momentum [7], it is still not fully comprehended how this is generated. Competing theories on this issue exist, which among others hypothesize thermal excitation [8][9][10][11] and/or quantum-mechanical uncertainty of angular-momentum-bearing modes [12] and Coulomb excitation after scission [13].…”

Section: Introductionmentioning

confidence: 99%

First isomeric yield ratio measurements by direct ion counting and implications for the angular momentum of the primary fission fragments

et al. 2018

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Publisher's PDF Rakopoulos, V.; Lantz, M.; Solders, A.; Al-Adili, A.; Mattera, A.; Canete, Laetitia; Eronen, Tommi; Gorelov, Dmitry; Jokinen, Ari; Kankainen, Anu; Kolhinen, Veli; Moore, Iain; Nesterenko, Dmitrii; Penttilä, Heikki; Pohjalainen, Ilkka; Rinta-Antila, Sami; Simutkin, V.; Vilén, Markus; Voss, Annika; Pomp, S.Rakopoulos, V., Lantz, M., Solders, A., Al-Adili, A., Mattera, A., Canete, L., . . . Pomp, S. (2018). First isomeric yield ratio measurements by direct ion counting and implications for the angular momentum of the primary fission fragments. Physical Review C, 98 (2) We report the first experimental determination of independent isomeric yield ratios using direct ion counting with a Penning trap, which offered such a high resolution in mass that isomeric states could be separated. The measurements were performed at the Ion Guide Isotope Separator On-Line (IGISOL) facility at the University of Jyväskylä. The isomer production ratios of 81 Moreover, based on the isomeric yield ratios, the root-mean-square angular momenta (J rms ) of the fission fragments after scission were estimated using the TALYS code. The experimentally determined isomeric yield ratios, and consequently the deduced J rms , for 130 Sn are significantly lower compared to 128 Sn for both fissioning systems. This can be attributed to the more spherical shape of the fragments that contribute to the formation of 130 Sn, due to their proximity to the N = 82 shell closure. The values of J rms for 129 Sb are higher than 128 Sn for both reactions, despite the same neutron number of both nuclides (N = 78), indicating the odd-Z effect where fission fragments with odd-Z number tend to bear larger angular momentum than even-Z fragments. The isomer production ratio for the isotopes of Sn is more enhanced in the nat U(p, f ) reaction than in 232 Th(p, f ). The opposite is observed for 96 Y and 97 Y. These discrepancies might be associated to different scission shapes of the fragments for the two fission reactions, indicating the impact that the different fission modes can have on the isomeric yield ratios.

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“…Recently, β/EC delayed fission was investigated for the very proton-rich nucleus using radioactive beams, and 180 Hg was found to show an asymmetric fission as a new region of mass-asymmetric fission [3]. Advancement of new technique for fission studies is reviewed in [4].…”

Section: Introductionmentioning

confidence: 99%

Study of fission using multi-nucleon transfer reactions

et al. 2018

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Abstract. Multi-nucleon transfer channels of the reactions of 18 O+ 232 Th, 18 O+ 238 U, 18 O+ 248 Cm were used to measure fission-fragment mass distribution for various nuclides and their excitation energy dependence. Predominantly asymmetric fission is observed at low excitation energies for all the studied cases, with an increase of the symmetric fission towards high excitation energies. Experimental data are compared with predictions of the fluctuation-dissipation model, where effects of multi-chance fission (neutron evaporation prior to fission) was introduced. It was shown that a reliable understanding of the observed fission fragment mass distributions can be obtained only invoking multi-chance fissions.

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Nuclear fission: a review of experimental advances and phenomenology

Cited by 157 publications

References 458 publications

Semiclassical origin of asymmetric nuclear fission: nascent-fragment shell effect in periodic-orbit theory

Semiclassical origin of asymmetric nuclear fission: nascent-fragment shell effect in periodic-orbit theory

First isomeric yield ratio measurements by direct ion counting and implications for the angular momentum of the primary fission fragments

Study of fission using multi-nucleon transfer reactions

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