The early development of neutron diffraction: science in the wings of the Manhattan Project.

IF 1.8 4区 材料科学
Acta Crystallographica Section A Pub Date : 2013-01-01 Epub Date: 2012-12-05 DOI:10.1107/S0108767312036021
T E Mason, T J Gawne, S E Nagler, M B Nestor, J M Carpenter
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引用次数: 29

Abstract

Although neutron diffraction was first observed using radioactive decay sources shortly after the discovery of the neutron, it was only with the availability of higher intensity neutron beams from the first nuclear reactors, constructed as part of the Manhattan Project, that systematic investigation of Bragg scattering became possible. Remarkably, at a time when the war effort was singularly focused on the development of the atomic bomb, groups working at Oak Ridge and Chicago carried out key measurements and recognized the future utility of neutron diffraction quite independent of its contributions to the measurement of nuclear cross sections. Ernest O. Wollan, Lyle B. Borst and Walter H. Zinn were all able to observe neutron diffraction in 1944 using the X-10 graphite reactor and the CP-3 heavy water reactor. Subsequent work by Wollan and Clifford G. Shull, who joined Wollan's group at Oak Ridge in 1946, laid the foundations for widespread application of neutron diffraction as an important research tool.

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中子衍射的早期发展:曼哈顿计划中的科学。
尽管中子衍射是在中子发现后不久用放射性衰变源首次观察到的,但直到第一批核反应堆(作为曼哈顿计划的一部分)提供了更高强度的中子束,才有可能对布拉格散射进行系统的研究。值得注意的是,当战争的精力集中在原子弹的发展上时,在橡树岭和芝加哥工作的小组进行了关键的测量,并认识到中子衍射的未来用途完全独立于它对核截面测量的贡献。Ernest O. Wollan, Lyle B. Borst和Walter H. Zinn都在1944年使用X-10石墨反应堆和CP-3重水反应堆观察到了中子衍射。Wollan和Clifford G. Shull(他于1946年加入Wollan在橡树岭的团队)随后的工作为中子衍射作为一种重要的研究工具的广泛应用奠定了基础。
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来源期刊
自引率
11.10%
发文量
0
审稿时长
3 months
期刊介绍: Acta Crystallographica Section A: Foundations and Advances publishes articles reporting advances in the theory and practice of all areas of crystallography in the broadest sense. As well as traditional crystallography, this includes nanocrystals, metacrystals, amorphous materials, quasicrystals, synchrotron and XFEL studies, coherent scattering, diffraction imaging, time-resolved studies and the structure of strain and defects in materials. The journal has two parts, a rapid-publication Advances section and the traditional Foundations section. Articles for the Advances section are of particularly high value and impact. They receive expedited treatment and may be highlighted by an accompanying scientific commentary article and a press release. Further details are given in the November 2013 Editorial. The central themes of the journal are, on the one hand, experimental and theoretical studies of the properties and arrangements of atoms, ions and molecules in condensed matter, periodic, quasiperiodic or amorphous, ideal or real, and, on the other, the theoretical and experimental aspects of the various methods to determine these properties and arrangements.
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