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Nuclear Fission02:50

Nuclear Fission

9.6K
Many heavier elements with smaller binding energies per nucleon can decompose into more stable elements that have intermediate mass numbers and larger binding energies per nucleon—that is, mass numbers and binding energies per nucleon that are closer to the “peak” of the binding energy graph near 56. Sometimes neutrons are also produced. This decomposition of a large nucleus into smaller pieces is called fission. The breaking is rather random with the formation of a large...
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Nuclear Power02:36

Nuclear Power

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Controlled nuclear fission reactions are used to generate electricity. Any nuclear reactor that produces power via the fission of uranium or plutonium by bombardment with neutrons has six components: nuclear fuel consisting of fissionable material, a nuclear moderator, a neutron source, control rods, reactor coolant, and a shield and containment system.
Nuclear Fuels
Nuclear fuel consists of a fissile isotope, such as uranium-235, which must be present in sufficient quantity to provide a...
7.7K
Nuclear Transmutation03:20

Nuclear Transmutation

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Nuclear transmutation is the conversion of one nuclide into another. It can occur by the radioactive decay of a nucleus, or the reaction of a nucleus with another particle. The first manmade nucleus was produced in Ernest Rutherford’s laboratory in 1919 by a transmutation reaction, the bombardment of one type of nuclei with other nuclei or with neutrons. Rutherford bombarded nitrogen-14 atoms with high-speed α particles from a natural radioactive isotope of radium and observed...
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Radioactivity and Nuclear Equations03:18

Radioactivity and Nuclear Equations

21.0K
Nuclear chemistry is the study of reactions that involve changes in nuclear structure. The nucleus of an atom is composed of protons and, except for hydrogen, neutrons. The number of protons in the nucleus is called the atomic number (Z) of the element, and the sum of the number of protons and the number of neutrons is the mass number (A). Atoms with the same atomic number but different mass numbers are isotopes of the same element.
A nuclide of an element has a specific number of protons and...
21.0K
Types of Radioactivity03:23

Types of Radioactivity

16.7K
The most common types of radioactivity are α decay, β decay, γ decay, neutron emission, and electron capture.
Alpha (α) decay is the emission of an α particle from the nucleus. For example, polonium-210 undergoes α decay:
16.7K
Nuclear Fusion02:45

Nuclear Fusion

19.1K
The process of converting very light nuclei into heavier nuclei is also accompanied by the conversion of mass into large amounts of energy, a process called fusion. The principal source of energy in the sun is a net fusion reaction in which four hydrogen nuclei fuse and ultimately produce one helium nucleus and two positrons.
A helium nucleus has a mass that is 0.7% less than that of four hydrogen nuclei; this lost mass is converted into energy during the fusion. This reaction produces about...
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Related Experiment Video

Updated: Jun 22, 2025

Neutron Radiography and Computed Tomography of Biological Systems at the Oak Ridge National Laboratory's High Flux Isotope Reactor
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Neck Rupture and Scission Neutrons in Nuclear Fission.

Ibrahim Abdurrahman1, Matthew Kafker2, Aurel Bulgac2

  • 1Theoretical Division, Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA.

Physical Review Letters
|July 1, 2024
PubMed
Summary
This summary is machine-generated.

This study provides the first microscopic view of nuclear fission scission, revealing characteristics of scission neutrons (SNs). These neutrons are emitted with specific energies and distributions, with 9-14% originating from scission.

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Area of Science:

  • Nuclear Physics
  • Nuclear Reactions
  • Quantum Mechanics

Background:

  • Nuclear fission involves the splitting of a nucleus into fragments.
  • The scission stage, where the nucleus divides, is poorly understood due to its dynamic nature.
  • Previous studies lacked experimental evidence for the violent neck rupture during fission.

Purpose of the Study:

  • To provide a fully microscopic characterization of the nuclear fission scission mechanism.
  • To analyze the spectrum and spatial distribution of scission neutrons (SNs).
  • To estimate the emission of charged particles during scission.

Main Methods:

  • Utilized a fully microscopic theoretical approach.
  • Simulated the scission mechanism in nuclear fission.
  • Analyzed the energy spectrum and spatial distribution of emitted scission neutrons.
  • Estimated upper limits for charged particle emission.

Main Results:

  • Presented the first microscopic characterization of the scission mechanism.
  • Detailed the spectrum and spatial distribution of scission neutrons (SNs).
  • SNs exhibit a distinct angular distribution and an average energy of ~3 MeV for U-236, Pu-240, and Cf-252, with a maximum of 16-18 MeV.
  • Estimated 9%-14% of total emitted neutrons are produced at scission.

Conclusions:

  • The scission mechanism in nuclear fission can be microscopically characterized.
  • Scission neutrons are a significant component of the neutron emission spectrum.
  • This research offers new insights into the nonequilibrium processes governing nuclear fission.