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- Neutron_microscope abstract "Neutron microscopes use neutrons to create images by nuclear fission of lithium-6 using small-angle neutron scattering. Neutrons are much heavier than photons and electrons used in forming photographic and X-ray images. Neutrons also have no electric charge, enabling them to penetrate substances to gain information about structure that is not accessible through other forms of microscopy. As of 2013, neutron microscopes offered four-fold magnification and 10-20 times better illumination than pinhole neutron cameras. The system increases the signal rate at least 50-fold.Neutrons interact with atomic nuclei via the strong force. This interaction can scatter neutrons from their original path and can also absorb them. Thus, a neutron beam becomes progressively less intense as it moves deeper within a substance. In this way, neutrons are analogous to x-rays for studying object interiors.Darkness in an x-ray image corresponds to the amount of matter the x-rays pass through. The density of a neutron image provides information on neutron absorption. Absorption rates vary by many orders of magnitude among the chemical elements.While neutrons have no charge, they do have spin and therefore a magnetic moment that can interact with external magnetic fields.".
- Neutron_microscope wikiPageID "40854179".
- Neutron_microscope wikiPageLength "5918".
- Neutron_microscope wikiPageOutDegree "48".
- Neutron_microscope wikiPageRevisionID "678500640".
- Neutron_microscope wikiPageWikiLink Atomic_nucleus.
- Neutron_microscope wikiPageWikiLink Cardinal_point_(optics).
- Neutron_microscope wikiPageWikiLink Category:Microscopes.
- Neutron_microscope wikiPageWikiLink Category:Neutron_instrumentation.
- Neutron_microscope wikiPageWikiLink Charge-coupled_device.
- Neutron_microscope wikiPageWikiLink Chemical_element.
- Neutron_microscope wikiPageWikiLink Electric_charge.
- Neutron_microscope wikiPageWikiLink Electric_field.
- Neutron_microscope wikiPageWikiLink Electron.
- Neutron_microscope wikiPageWikiLink Electron_microscope.
- Neutron_microscope wikiPageWikiLink Fluorescence.
- Neutron_microscope wikiPageWikiLink Gamma-ray_astronomy.
- Neutron_microscope wikiPageWikiLink Grazing-incidence_small-angle_scattering.
- Neutron_microscope wikiPageWikiLink Helium.
- Neutron_microscope wikiPageWikiLink Isotopes_of_lithium.
- Neutron_microscope wikiPageWikiLink LARMOR_neutron_microscope.
- Neutron_microscope wikiPageWikiLink Lens_(optics).
- Neutron_microscope wikiPageWikiLink Lithium.
- Neutron_microscope wikiPageWikiLink Magnet.
- Neutron_microscope wikiPageWikiLink Magnetic_field.
- Neutron_microscope wikiPageWikiLink Magnetic_moment.
- Neutron_microscope wikiPageWikiLink Microscope_image_processing.
- Neutron_microscope wikiPageWikiLink Neutron.
- Neutron_microscope wikiPageWikiLink Neutron_detection.
- Neutron_microscope wikiPageWikiLink Neutron_flux.
- Neutron_microscope wikiPageWikiLink Nondestructive_testing.
- Neutron_microscope wikiPageWikiLink Nuclear_fission.
- Neutron_microscope wikiPageWikiLink Phosphor.
- Neutron_microscope wikiPageWikiLink Photon.
- Neutron_microscope wikiPageWikiLink Pinhole_camera.
- Neutron_microscope wikiPageWikiLink Reflection_(physics).
- Neutron_microscope wikiPageWikiLink Refraction.
- Neutron_microscope wikiPageWikiLink Shadowgraph.
- Neutron_microscope wikiPageWikiLink Small-angle_neutron_scattering.
- Neutron_microscope wikiPageWikiLink Spin_(physics).
- Neutron_microscope wikiPageWikiLink Spin_polarization.
- Neutron_microscope wikiPageWikiLink Strong_interaction.
- Neutron_microscope wikiPageWikiLink Total_internal_reflection.
- Neutron_microscope wikiPageWikiLink Tritium.
- Neutron_microscope wikiPageWikiLink Wolter_telescope.
- Neutron_microscope wikiPageWikiLink X-ray.
- Neutron_microscope wikiPageWikiLink X-ray_microscope.
- Neutron_microscope wikiPageWikiLink X-ray_telescope.
- Neutron_microscope wikiPageWikiLink Zinc_sulfide.
- Neutron_microscope wikiPageWikiLinkText "Neutron microscope".
- Neutron_microscope wikiPageUsesTemplate Template:Reflist.
- Neutron_microscope subject Category:Microscopes.
- Neutron_microscope subject Category:Neutron_instrumentation.
- Neutron_microscope comment "Neutron microscopes use neutrons to create images by nuclear fission of lithium-6 using small-angle neutron scattering. Neutrons are much heavier than photons and electrons used in forming photographic and X-ray images. Neutrons also have no electric charge, enabling them to penetrate substances to gain information about structure that is not accessible through other forms of microscopy.".
- Neutron_microscope label "Neutron microscope".
- Neutron_microscope sameAs Q17091485.
- Neutron_microscope sameAs m.0yp2qpv.
- Neutron_microscope sameAs Q17091485.
- Neutron_microscope wasDerivedFrom Neutron_microscope?oldid=678500640.
- Neutron_microscope isPrimaryTopicOf Neutron_microscope.