Neutron holography technique for obtaining clear 3-D atomic images
NITech
Now, a collaboration among Japanese researchers working at national particle accelerator facilities across Japan has developed a new multiple-wavelength neutron holography technique that can give insights into previously unknown structures. They demonstrated a new neutron holographic method using a Eu-doped CaF2 single crystal and obtained clear three-dimensional atomic images around trivalent Eu substituted divalent Ca, revealing never-before-seen intensity features of the local structure that allows it to maintain charge neutrality.
"We knew that neutron holography might be able to tell us more about the structure of a europium-doped calcium fluoride crystal," says lead author Kouichi Hayashi. "Europium ions add extra positive charge to the crystal structure, and our neutron holograms showed how fluorine atoms arranged in the lattice to balance this excess charge. These kinds of structural problems are often encountered by materials scientists developing new electronic materials, and our method offers an exciting new tool for these researchers."
The new holographic method works by firing neutrons with controlled speed at a sample, which in this case is the europium-doped calcium fluoride crystals. Neutrons are normally thought of as particles, but also have wave-like properties similar to light, depending on their speed. When the neutrons hit europium atoms, gamma rays are produced in a pattern controlled by the local structure. The gamma ray patterns, or holograms, measured from neutrons travelling at different speeds are combined to produce a three-dimensional representation of the europium atoms in the crystal.
Hayashi says, "Neutron sources are less intense than X-ray sources, but it is essential that we work around this issue to develop more effective methods for exploring structures with light elements. Our work here represents a step towards a full toolbox of commentary X-ray and neutron techniques for materials research."
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Hayashi, Kouichi and Ohoyama, Kenji and Happo, Naohisa and Matsushita, Tomohiro and Hosokawa, Shinya and Harada, Masahide and Inamura, Yasuhiro and Nitani, Hiroaki and Shishido, Toetsu and Yubuta, Kunio; "Multiple-wavelength neutron holography with pulsed neutrons"; Science Advances; 2017
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