SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1992397598> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W1992397598 abstract "The dynamical diffraction model has been developed for the quantitative description of rocking curves (RCs) measured in the Bragg diffraction geometry from single crystals containing homogeneously distributed microdefects of several types and with arbitrary sizes. The analytical expressions for coherent and diffuse RC components, which take self-consistently multiple-scattering effects into account and depend explicitly on microdefect characteristics (radius, concentration, strength, etc.), have been derived with taking into account the instrumental factors. The developed model has been applied to determine the characteristics of oxygen precipitates and dislocation loops in silicon crystals grown by Czochralsky and float-zone methods using RCs measured by the high-resolution double-crystal x-ray diffractometer. It has been shown, particularly, that completely dynamical consideration of Huang as well as Stockes-Wilson diffuse scattering (DS) in both diffuse RC component and coefficient of extinction of coherent RC component due to DS, together with taking asymmetry and thermal DS effects into account, provides the possibility to distinguish contributions into RC from defects of different types, which have equal or commensurable effective radii." @default.
W1992397598 created "2016-06-24" @default.
W1992397598 creator A5035015201 @default.
W1992397598 creator A5035243544 @default.
W1992397598 creator A5042889557 @default.
W1992397598 creator A5075656735 @default.
W1992397598 creator A5078975790 @default.
W1992397598 creator A5087303631 @default.
W1992397598 creator A5089294489 @default.
W1992397598 date "2008-12-30" @default.
W1992397598 modified "2023-10-14" @default.
W1992397598 title "Dynamical theoretical model of the high-resolution double-crystal x-ray diffractometry of imperfect single crystals with microdefects" @default.
W1992397598 cites W1964331936 @default.
W1992397598 cites W1964573560 @default.
W1992397598 cites W1968201209 @default.
W1992397598 cites W1969571686 @default.
W1992397598 cites W1970992946 @default.
W1992397598 cites W1972202297 @default.
W1992397598 cites W1973310127 @default.
W1992397598 cites W1974185951 @default.
W1992397598 cites W1976135803 @default.
W1992397598 cites W1985036934 @default.
W1992397598 cites W2008658630 @default.
W1992397598 cites W2009338399 @default.
W1992397598 cites W2011254884 @default.
W1992397598 cites W2012296332 @default.
W1992397598 cites W2025976478 @default.
W1992397598 cites W2027111900 @default.
W1992397598 cites W2034221735 @default.
W1992397598 cites W2041893509 @default.
W1992397598 cites W2049850471 @default.
W1992397598 cites W2053247110 @default.
W1992397598 cites W2057767351 @default.
W1992397598 cites W2059799093 @default.
W1992397598 cites W2061562880 @default.
W1992397598 cites W2063492344 @default.
W1992397598 cites W2063686596 @default.
W1992397598 cites W2063785158 @default.
W1992397598 cites W2068135708 @default.
W1992397598 cites W2073289226 @default.
W1992397598 cites W2078140681 @default.
W1992397598 cites W2078354567 @default.
W1992397598 cites W2079659865 @default.
W1992397598 cites W2081572350 @default.
W1992397598 cites W2090845407 @default.
W1992397598 cites W2090925946 @default.
W1992397598 cites W2092112268 @default.
W1992397598 cites W2093453443 @default.
W1992397598 cites W2093648500 @default.
W1992397598 cites W2121027300 @default.
W1992397598 cites W2159481252 @default.
W1992397598 cites W2169283201 @default.
W1992397598 cites W2312940033 @default.
W1992397598 cites W4230354946 @default.
W1992397598 cites W4237760847 @default.
W1992397598 cites W4380869199 @default.
W1992397598 doi "https://doi.org/10.1103/physrevb.78.224109" @default.
W1992397598 hasPublicationYear "2008" @default.
W1992397598 type Work @default.
W1992397598 sameAs 1992397598 @default.
W1992397598 citedByCount "28" @default.
W1992397598 countsByYear W19923975982012 @default.
W1992397598 countsByYear W19923975982013 @default.
W1992397598 countsByYear W19923975982014 @default.
W1992397598 countsByYear W19923975982015 @default.
W1992397598 countsByYear W19923975982016 @default.
W1992397598 countsByYear W19923975982017 @default.
W1992397598 countsByYear W19923975982019 @default.
W1992397598 countsByYear W19923975982020 @default.
W1992397598 countsByYear W19923975982021 @default.
W1992397598 countsByYear W19923975982023 @default.
W1992397598 crossrefType "journal-article" @default.
W1992397598 hasAuthorship W1992397598A5035015201 @default.
W1992397598 hasAuthorship W1992397598A5035243544 @default.
W1992397598 hasAuthorship W1992397598A5042889557 @default.
W1992397598 hasAuthorship W1992397598A5075656735 @default.
W1992397598 hasAuthorship W1992397598A5078975790 @default.
W1992397598 hasAuthorship W1992397598A5087303631 @default.
W1992397598 hasAuthorship W1992397598A5089294489 @default.
W1992397598 hasConcept C120665830 @default.
W1992397598 hasConcept C121332964 @default.
W1992397598 hasConcept C159122135 @default.
W1992397598 hasConcept C178635117 @default.
W1992397598 hasConcept C191486275 @default.
W1992397598 hasConcept C192562407 @default.
W1992397598 hasConcept C199360897 @default.
W1992397598 hasConcept C207114421 @default.
W1992397598 hasConcept C26771246 @default.
W1992397598 hasConcept C26873012 @default.
W1992397598 hasConcept C2781285689 @default.
W1992397598 hasConcept C30475298 @default.
W1992397598 hasConcept C38652104 @default.
W1992397598 hasConcept C38976095 @default.
W1992397598 hasConcept C39546656 @default.
W1992397598 hasConcept C41008148 @default.
W1992397598 hasConcept C41999313 @default.
W1992397598 hasConcept C46141821 @default.
W1992397598 hasConcept C49040817 @default.
W1992397598 hasConcept C544956773 @default.
W1992397598 hasConcept C62520636 @default.