SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3060183614> ?p ?o ?g. }

Showing items 1 to 100 of ±191 with 100 items per page.

W3060183614 endingPage "1277" @default.
W3060183614 startingPage "1262" @default.
W3060183614 abstract "Measurements of mass attenuation coefficients and X-ray absorption fine structure (XAFS) of zinc selenide (ZnSe) are reported to accuracies typically better than 0.13%. The high accuracy of the results presented here is due to our successful implementation of the X-ray extended range technique, a relatively new methodology, which can be set up on most synchrotron X-ray beamlines. 561 attenuation coefficients were recorded in the energy range 6.8-15 keV with measurements concentrated at the zinc and selenium pre-edge, near-edge and fine-structure absorption edge regions. This accuracy yielded detailed nanostructural analysis of room-temperature ZnSe with full uncertainty propagation. Bond lengths, accurate to 0.003 Å to 0.009 Å, or 0.1% to 0.3%, are plausible and physical. Small variation from a crystalline structure suggests local dynamic motion beyond that of a standard crystal lattice, noting that XAFS is sensitive to dynamic correlated motion. The results obtained in this work are the most accurate to date with comparisons with theoretically determined values of the attenuation showing discrepancies from literature theory of up to 4%, motivating further investigation into the origin of such discrepancies." @default.
W3060183614 created "2020-08-24" @default.
W3060183614 creator A5018272326 @default.
W3060183614 creator A5032548998 @default.
W3060183614 creator A5034512762 @default.
W3060183614 creator A5046336398 @default.
W3060183614 creator A5055383023 @default.
W3060183614 creator A5082404867 @default.
W3060183614 creator A5087867648 @default.
W3060183614 date "2020-08-17" @default.
W3060183614 modified "2023-10-18" @default.
W3060183614 title "High accuracy determination of photoelectric cross sections, X-ray absorption fine structure and nanostructure analysis of zinc selenide using the X-ray extended range technique" @default.
W3060183614 cites W140141265 @default.
W3060183614 cites W1500812923 @default.
W3060183614 cites W1540881171 @default.
W3060183614 cites W1966153270 @default.
W3060183614 cites W1967902064 @default.
W3060183614 cites W1973709698 @default.
W3060183614 cites W1975799583 @default.
W3060183614 cites W1978034137 @default.
W3060183614 cites W1978450379 @default.
W3060183614 cites W1979047854 @default.
W3060183614 cites W1980134088 @default.
W3060183614 cites W1980615022 @default.
W3060183614 cites W1983157485 @default.
W3060183614 cites W1985371938 @default.
W3060183614 cites W1985743416 @default.
W3060183614 cites W1987230612 @default.
W3060183614 cites W1989405668 @default.
W3060183614 cites W1990291759 @default.
W3060183614 cites W1999319995 @default.
W3060183614 cites W2002764782 @default.
W3060183614 cites W2004885219 @default.
W3060183614 cites W2005111725 @default.
W3060183614 cites W2005842857 @default.
W3060183614 cites W2005920255 @default.
W3060183614 cites W2006994720 @default.
W3060183614 cites W2007214876 @default.
W3060183614 cites W2007301789 @default.
W3060183614 cites W2010615605 @default.
W3060183614 cites W2011020318 @default.
W3060183614 cites W2014618829 @default.
W3060183614 cites W2016562887 @default.
W3060183614 cites W2018139396 @default.
W3060183614 cites W2018222553 @default.
W3060183614 cites W2019190386 @default.
W3060183614 cites W2020384772 @default.
W3060183614 cites W2023692073 @default.
W3060183614 cites W2028593777 @default.
W3060183614 cites W2028638657 @default.
W3060183614 cites W2030200008 @default.
W3060183614 cites W2031546209 @default.
W3060183614 cites W2036203414 @default.
W3060183614 cites W2039510820 @default.
W3060183614 cites W2040458567 @default.
W3060183614 cites W2040789018 @default.
W3060183614 cites W2042295569 @default.
W3060183614 cites W2046018281 @default.
W3060183614 cites W2047462462 @default.
W3060183614 cites W2048455595 @default.
W3060183614 cites W2049302850 @default.
W3060183614 cites W2050125468 @default.
W3060183614 cites W2055134456 @default.
W3060183614 cites W2063019668 @default.
W3060183614 cites W2067537996 @default.
W3060183614 cites W2069908729 @default.
W3060183614 cites W2070638674 @default.
W3060183614 cites W2071723427 @default.
W3060183614 cites W2075589672 @default.
W3060183614 cites W2076112311 @default.
W3060183614 cites W2076278348 @default.
W3060183614 cites W2078205210 @default.
W3060183614 cites W2078431687 @default.
W3060183614 cites W2079590953 @default.
W3060183614 cites W2079893566 @default.
W3060183614 cites W2083845044 @default.
W3060183614 cites W2085765714 @default.
W3060183614 cites W2085944512 @default.
W3060183614 cites W2086810854 @default.
W3060183614 cites W2100255760 @default.
W3060183614 cites W2101408048 @default.
W3060183614 cites W2103406377 @default.
W3060183614 cites W2113859210 @default.
W3060183614 cites W2115291022 @default.
W3060183614 cites W2125082642 @default.
W3060183614 cites W2128188405 @default.
W3060183614 cites W2136013928 @default.
W3060183614 cites W2137222832 @default.
W3060183614 cites W2150679267 @default.
W3060183614 cites W2155434695 @default.
W3060183614 cites W2158290332 @default.
W3060183614 cites W2160174308 @default.
W3060183614 cites W2531167106 @default.
W3060183614 cites W2806515856 @default.
W3060183614 cites W4230472464 @default.
W3060183614 cites W819401396 @default.
W3060183614 doi "https://doi.org/10.1107/s1600577520010097" @default.
W3060183614 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32876602" @default.