J. Wiederhold scite author profile

When a heavy atomic nucleus splits (fission), the resulting fragments are observed to emerge spinning 1 ; this phenomenon has been a mystery in nuclear physics for over 40 years 2,3 . The internal generation of six or seven units of angular momentum in each fragment is particularly puzzling for systems that start with zero, or almost zero, spin. There are currently no experimental observations that enable decisive discrimination between the many competing theories for the mechanism that generates the angular momentum [4][5][6][7][8][9][10][11][12] . Nevertheless, the consensus is that excitation of collective vibrational modes generates the intrinsic spin before the nucleus splits (pre-scission). Here we show that there is no significant correlation between the spins of the fragment partners, which leads us to conclude that angular momentum in fission is actually generated after the nucleus splits (post-scission). We present comprehensive data showing that the average spin is strongly mass-dependent, varying in saw-tooth distributions. We observe no notable dependence of fragment spin on the mass or charge of the partner nucleus, confirming the uncorrelated post-scission nature of the spin mechanism. To explain these observations, we propose that the collective motion of nucleons in the ruptured neck of the fissioning system generates two independent torques, analogous to the snapping of an elastic band. A parameterization based on occupation of angular momentum states according to statistical theory describes the full range of experimental data well. This insight into the role of spin in nuclear fission is not only important for the fundamental understanding and theoretical description of fission, but also has consequences for the γ-ray heating problem in nuclear reactors 13,14 , for the study of the structure of neutron-rich isotopes 15,16 , and for the synthesis and stability of super-heavy elements 17,18 .

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Spectroscopy and lifetime measurements in Te134,136,138 isotopes and implications for the nuclear structure beyond N=82
Häfner¹,
Lozeva²,
Naïdja³
et al. 2021
Phys. Rev. C
12
3
18
0
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Shape coexistence in neutron-deficient Hg188 investigated via lifetime measurements

Siciliano¹,

Zanon²,

Goasduff³

et al. 2020

Phys. Rev. C

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Prompt and delayed γ spectroscopy of neutron-rich Kr94 and observation of a new isomer

Gerst¹,

Blazhev²,

Warr³

et al. 2020

Phys. Rev. C

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Level lifetimes and quadrupole moments from Coulomb excitation in the Ba chain and the N = 80 isotones

Bauer

Guastalla

Leske

et al. 2012

EPJ Web of Conferences

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J. Wiederhold

Angular momentum generation in nuclear fission

Spectroscopy and lifetime measurements in Te134,136,138 isotopes and implications for the nuclear structure beyond N=82
Häfner¹,
Lozeva²,
Naïdja³
et al. 2021
Phys. Rev. C
12
3
18
0
View full text Add to dashboard Cite

Shape coexistence in neutron-deficient Hg188 investigated via lifetime measurements

Prompt and delayed γ spectroscopy of neutron-rich Kr94 and observation of a new isomer

Level lifetimes and quadrupole moments from Coulomb excitation in the Ba chain and the N = 80 isotones

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J. Wiederhold

Angular momentum generation in nuclear fission

Spectroscopy and lifetime measurements in Te134,136,138 isotopes and implications for the nuclear structure beyond N=82Häfner1, Lozeva2, Naïdja3 et al. 2021Phys. Rev. C123180View full textAdd to dashboardCite

Shape coexistence in neutron-deficient Hg188 investigated via lifetime measurements

Prompt and delayed γ spectroscopy of neutron-rich Kr94 and observation of a new isomer

Level lifetimes and quadrupole moments from Coulomb excitation in the Ba chain and the N = 80 isotones

Contact Info

Product

Resources

About

Spectroscopy and lifetime measurements in Te134,136,138 isotopes and implications for the nuclear structure beyond N=82
Häfner¹,
Lozeva²,
Naïdja³
et al. 2021
Phys. Rev. C
12
3
18
0
View full text Add to dashboard Cite