Neutron - Uses


Science with Neutrons
  • Neutron temperature
  • Flux · Radiation · Transport
  • Cross section · Absorption · Activation
Neutron scattering
  • Neutron diffraction
    • Small-angle neutron scattering
    • GISANS
    • Reflectometry
  • Inelastic neutron scattering
    • Triple-axis spectrometer
    • Time-of-flight spectrometer
    • Backscattering spectrometer
    • Spin-echo spectrometer
Other applications
  • Radiography and tomography
  • Activation analysis · Prompt gamma activation analysis
  • Fundamental research with neutrons: Ultracold neutrons · Interferometry
  • Neutron sources: Research reactor · Spallation · Neutron moderator
  • Neutron optics: Guide · Supermirror · Polarizer
  • Detection
Neutron facilities
  • America: HFIR · LANSCE · NIST CNR -SNS
  • Australia: OPAL
  • Asia: J-PARC
  • Europe: BER II · FRM II · ILL · ISIS · JINR · LLB · PINS · SINQ
  • Historic: IPNS · HFBR
  • Planned: ESS
  • User Affiliations: ENSA

The neutron plays an important role in many nuclear reactions. For example, neutron capture often results in neutron activation, inducing radioactivity. In particular, knowledge of neutrons and their behavior has been important in the development of nuclear reactors and nuclear weapons. The fissioning of elements like uranium-235 and plutonium-239 is caused by their absorption of neutrons.

Cold, thermal and hot neutron radiation is commonly employed in neutron scattering facilities, where the radiation is used in a similar way one uses X-rays for the analysis of condensed matter. Neutrons are complementary to the latter in terms of atomic contrasts by different scattering cross sections; sensitivity to magnetism; energy range for inelastic neutron spectroscopy; and deep penetration into matter.

The development of "neutron lenses" based on total internal reflection within hollow glass capillary tubes or by reflection from dimpled aluminum plates has driven ongoing research into neutron microscopy and neutron/gamma ray tomography.

A major use of neutrons is to excite delayed and prompt gamma rays from elements in materials. This forms the basis of neutron activation analysis (NAA) and prompt gamma neutron activation analysis (PGNAA). NAA is most often used to analyze small samples of materials in a nuclear reactor whilst PGNAA is most often used to analyze subterranean rocks around bore holes and industrial bulk materials on conveyor belts.

Another use of neutron emitters is the detection of light nuclei, particularly the hydrogen found in water molecules. When a fast neutron collides with a light nucleus, it loses a large fraction of its energy. By measuring the rate at which slow neutrons return to the probe after reflecting off of hydrogen nuclei, a neutron probe may determine the water content in soil.

Read more about this topic:  Neutron

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