Neutron tomography

Science with Neutrons

Foundations
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
Neutron tomography Activation analysis · Prompt gamma activation analysis Fundamental research with neutrons: Ultracold neutrons · Interferometry Fast neutron therapy Neutron capture therapy
Infrastructure
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 · HANARO Europe: BER II · FRM II · ILL · ISIS · JINR · LLB · PINS · SINQ Historic: IPNS · HFBR Planned: ESS User Affiliations: ENSA

Neutron tomography is a form of computed tomography involving the production of three-dimensional images by the detection of the absorbance of neutrons produced by a neutron source.^[1] It created a three-dimensional image of an object by combining multiple planar images with a known separation.^[2] It has a resolution of down to 25 μm.^[3]^[4] Whilst its resolution is lower than that of X-ray tomography, it can be useful for specimens containing low contrast between the matrix and object of interest; for instance, fossils with a high carbon content, such as plants or vertebrate remains.^[5]

Neutron tomography can have the unfortunate side-effect of leaving imaged samples radioactive if they contain appreciable levels of certain elements.^[5]

References

↑ Grünauer, F.; Schillinger, B.; Steichele, E. (2004). "Optimization of the beam geometry for the cold neutron tomography facility at the new neutron source in Munich". Applied Radiation and Isotopes. 61 (4): 479–485. doi:10.1016/j.apradiso.2004.03.073. PMID 15246387.
↑ McClellan Nuclear Radiation Center
↑ "Neutron Tomography". Paul Scherrer Institut.
↑ "Neutron Tomography NMI3". NMI3.
1 2 Sutton, M. D. (2008). "Tomographic techniques for the study of exceptionally preserved fossils". Proceedings of the Royal Society B: Biological Sciences. 275 (1643): 1587–1593. doi:10.1098/rspb.2008.0263. PMC 2394564. PMID 18426749.

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Neutron tomography

See also

References