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• W2088528537 abstract "Research Article| January 01, 2006 Single-crystal Neutron Diffraction: Present and Future Applications Nancy L. Ross; Nancy L. Ross Crystallography Laboratory, Department of Geosciences Virginia Polytechnic Institute and State University Blacksburg, Virginia, 24061, U.S.A., e-mail: nross@vt.edu Search for other works by this author on: GSW Google Scholar Christina Hoffmann Christina Hoffmann Oak Ridge National Laboratory/SNS, One Bethel Valley Road, P.O. Box 2008, MS6474, Oak Ridge, Tennessee, 37831-6474, U.S.A. e-mail: hoffmanncm@ornl.gov Search for other works by this author on: GSW Google Scholar Reviews in Mineralogy and Geochemistry (2006) 63 (1): 59–80. https://doi.org/10.2138/rmg.2006.63.3 Article history first online: 13 Jul 2017 Cite View This Citation Add to Citation Manager Share Icon Share Facebook Twitter LinkedIn MailTo Tools Icon Tools Get Permissions Search Site Citation Nancy L. Ross, Christina Hoffmann; Single-crystal Neutron Diffraction: Present and Future Applications. Reviews in Mineralogy and Geochemistry 2006;; 63 (1): 59–80. doi: https://doi.org/10.2138/rmg.2006.63.3 Download citation file: Ris (Zotero) Refmanager EasyBib Bookends Mendeley Papers EndNote RefWorks BibTex toolbar search Search Dropdown Menu toolbar search search input Search input auto suggest filter your search All ContentBy SocietyReviews in Mineralogy and Geochemistry Search Advanced Search Single-crystal neutron diffraction provides a powerful complementary probe to X-ray diffraction for the characterization of earth materials. The ability of neutron diffraction to determine the position of the atomic nucleus rather than electron density is key to its use in structural studies. A typical neutron beam spectrum contains neutrons in the energy ranges of epithermal, hot, thermal and cold. The relation between the neutron kinetic energy and the wavelength is: [mathit{E} = frac{1}{2}mathit{mv}^{2} = left(frac{{hbar}^{2}2{pi}^{2}}{mathit{m}}right)frac{1}{{lambda}^{2}}{ }{ }(de-Broglie)] (1) where m is the neutron mass and v is the velocity. This can be transformed in (1) via de Broglie using the... You do not have access to this content, please speak to your institutional administrator if you feel you should have access." @default.
• W2088528537 created "2016-06-24" @default.
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• W2088528537 date "2006-01-01" @default.
• W2088528537 modified "2023-09-26" @default.
• W2088528537 title "Single-crystal Neutron Diffraction: Present and Future Applications" @default.
• W2088528537 cites W1529211540 @default.
• W2088528537 cites W1561356736 @default.
• W2088528537 cites W158792145 @default.
• W2088528537 cites W1798787260 @default.
• W2088528537 cites W1839836710 @default.
• W2088528537 cites W1916447994 @default.
• W2088528537 cites W1969446639 @default.
• W2088528537 cites W1970172644 @default.
• W2088528537 cites W1974361167 @default.
• W2088528537 cites W1975105265 @default.
• W2088528537 cites W1983676040 @default.
• W2088528537 cites W1984466724 @default.
• W2088528537 cites W1986836282 @default.
• W2088528537 cites W1989870074 @default.
• W2088528537 cites W1989975951 @default.
• W2088528537 cites W1990355778 @default.
• W2088528537 cites W1992554930 @default.
• W2088528537 cites W2006737788 @default.
• W2088528537 cites W2006882553 @default.
• W2088528537 cites W2015235661 @default.
• W2088528537 cites W2015309146 @default.
• W2088528537 cites W2015334800 @default.
• W2088528537 cites W2017002198 @default.
• W2088528537 cites W2017840799 @default.
• W2088528537 cites W2017909813 @default.
• W2088528537 cites W2025557354 @default.
• W2088528537 cites W2026846175 @default.
• W2088528537 cites W2031033704 @default.
• W2088528537 cites W2031120894 @default.
• W2088528537 cites W2039621486 @default.
• W2088528537 cites W2044489368 @default.
• W2088528537 cites W2047151503 @default.
• W2088528537 cites W2051848493 @default.
• W2088528537 cites W2054822264 @default.
• W2088528537 cites W2059721913 @default.
• W2088528537 cites W2061377802 @default.
• W2088528537 cites W2061838974 @default.
• W2088528537 cites W2065277590 @default.
• W2088528537 cites W2065509005 @default.
• W2088528537 cites W2068741687 @default.
• W2088528537 cites W2069510043 @default.
• W2088528537 cites W2069698695 @default.
• W2088528537 cites W2071941383 @default.
• W2088528537 cites W2075522622 @default.
• W2088528537 cites W2076849661 @default.
• W2088528537 cites W2082411483 @default.
• W2088528537 cites W2082945936 @default.
• W2088528537 cites W2085322869 @default.
• W2088528537 cites W2087279957 @default.
• W2088528537 cites W2092844518 @default.
• W2088528537 cites W2093234530 @default.
• W2088528537 cites W2093567051 @default.
• W2088528537 cites W2120518470 @default.
• W2088528537 cites W2124943559 @default.
• W2088528537 cites W2129801804 @default.
• W2088528537 cites W2132121866 @default.
• W2088528537 cites W2134184792 @default.
• W2088528537 cites W2137997189 @default.
• W2088528537 cites W2145875981 @default.
• W2088528537 cites W2148408433 @default.
• W2088528537 cites W2154950947 @default.
• W2088528537 cites W2158900271 @default.
• W2088528537 cites W2287315347 @default.
• W2088528537 cites W2321060366 @default.
• W2088528537 cites W2338720056 @default.
• W2088528537 cites W2342173577 @default.
• W2088528537 cites W2343880550 @default.
• W2088528537 cites W2344085937 @default.
• W2088528537 cites W2513741895 @default.
• W2088528537 cites W2522569080 @default.
• W2088528537 cites W2591058519 @default.
• W2088528537 cites W2595401604 @default.
• W2088528537 cites W2603464771 @default.
• W2088528537 cites W2616764790 @default.
• W2088528537 cites W2964975318 @default.
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• W2088528537 doi "https://doi.org/10.2138/rmg.2006.63.3" @default.
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