SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2017292998> ?p ?o ?g. }

Showing items 1 to 100 of ±127 with 100 items per page.

W2017292998 endingPage "5579" @default.
W2017292998 startingPage "5571" @default.
W2017292998 abstract "The various electronic excitation channels which contribute to the production of photoelectrons and Auger electrons following x-ray absorption in a solid are discussed. In particular, we outline the contributions of elastic and inelastic photoelectrons and Auger electrons for the different electron-yield detection modes which are commonly used to record the (surface) extended x-ray-absorption fine structure [(S)EXAFS] of a sample. We demonstrate by theoretical considerations that the (S)EXAFS signals measured by different electron-yield detection modes exhibit identical phases and thus will yield identical neighbor distances. The amplitudes derived from the spectra, however, may be quite different since the inelastic and secondary photoelectron channel which contributes for some detection modes does not contain extended x-ray-absorption fine-structure (EXAFS) information. It is pointed out that amplitude transferability between data recorded in different modes can still be approximately preserved by suitable background subtraction procedures. Experimental total electron yield and elastic Auger-electron yield EXAFS spectra of Al metal are presented which confirm our theoretical considerations." @default.
W2017292998 created "2016-06-24" @default.
W2017292998 creator A5020569471 @default.
W2017292998 creator A5052888087 @default.
W2017292998 creator A5060831255 @default.
W2017292998 date "1984-11-15" @default.
W2017292998 modified "2023-10-10" @default.
W2017292998 title "Auger and photoelectron contributions to the electron-yield surface extended x-ray-absorption fine-structure signal" @default.
W2017292998 cites W1964252505 @default.
W2017292998 cites W1966572083 @default.
W2017292998 cites W1967904159 @default.
W2017292998 cites W1971698175 @default.
W2017292998 cites W1973327364 @default.
W2017292998 cites W1977332830 @default.
W2017292998 cites W1984085515 @default.
W2017292998 cites W1997663752 @default.
W2017292998 cites W1998886541 @default.
W2017292998 cites W2003164669 @default.
W2017292998 cites W2013511339 @default.
W2017292998 cites W2015556470 @default.
W2017292998 cites W2016123093 @default.
W2017292998 cites W2019065836 @default.
W2017292998 cites W2027000037 @default.
W2017292998 cites W2028091978 @default.
W2017292998 cites W2028505576 @default.
W2017292998 cites W2029618020 @default.
W2017292998 cites W2035053793 @default.
W2017292998 cites W2041153253 @default.
W2017292998 cites W2041185935 @default.
W2017292998 cites W2043265643 @default.
W2017292998 cites W2043872861 @default.
W2017292998 cites W2045056482 @default.
W2017292998 cites W2048624097 @default.
W2017292998 cites W2058100864 @default.
W2017292998 cites W2059705194 @default.
W2017292998 cites W2068401177 @default.
W2017292998 cites W2069668614 @default.
W2017292998 cites W2070347328 @default.
W2017292998 cites W2074528682 @default.
W2017292998 cites W2077921307 @default.
W2017292998 cites W2080725821 @default.
W2017292998 cites W2081895100 @default.
W2017292998 cites W2083179544 @default.
W2017292998 cites W2084167223 @default.
W2017292998 cites W2087718750 @default.
W2017292998 cites W2088281946 @default.
W2017292998 cites W2094836684 @default.
W2017292998 cites W2115539690 @default.
W2017292998 cites W2123374604 @default.
W2017292998 cites W2162321399 @default.
W2017292998 cites W4253464052 @default.
W2017292998 doi "https://doi.org/10.1103/physrevb.30.5571" @default.
W2017292998 hasPublicationYear "1984" @default.
W2017292998 type Work @default.
W2017292998 sameAs 2017292998 @default.
W2017292998 citedByCount "66" @default.
W2017292998 countsByYear W20172929982013 @default.
W2017292998 countsByYear W20172929982014 @default.
W2017292998 countsByYear W20172929982015 @default.
W2017292998 countsByYear W20172929982016 @default.
W2017292998 countsByYear W20172929982018 @default.
W2017292998 countsByYear W20172929982020 @default.
W2017292998 countsByYear W20172929982021 @default.
W2017292998 countsByYear W20172929982023 @default.
W2017292998 crossrefType "journal-article" @default.
W2017292998 hasAuthorship W2017292998A5020569471 @default.
W2017292998 hasAuthorship W2017292998A5052888087 @default.
W2017292998 hasAuthorship W2017292998A5060831255 @default.
W2017292998 hasConcept C107861141 @default.
W2017292998 hasConcept C112239018 @default.
W2017292998 hasConcept C119824511 @default.
W2017292998 hasConcept C120665830 @default.
W2017292998 hasConcept C121332964 @default.
W2017292998 hasConcept C125287762 @default.
W2017292998 hasConcept C1276947 @default.
W2017292998 hasConcept C134121241 @default.
W2017292998 hasConcept C147120987 @default.
W2017292998 hasConcept C171627272 @default.
W2017292998 hasConcept C184779094 @default.
W2017292998 hasConcept C185544564 @default.
W2017292998 hasConcept C191897082 @default.
W2017292998 hasConcept C192562407 @default.
W2017292998 hasConcept C25442681 @default.
W2017292998 hasConcept C2780646311 @default.
W2017292998 hasConcept C34667332 @default.
W2017292998 hasConcept C4839761 @default.
W2017292998 hasConcept C71570822 @default.
W2017292998 hasConceptScore W2017292998C107861141 @default.
W2017292998 hasConceptScore W2017292998C112239018 @default.
W2017292998 hasConceptScore W2017292998C119824511 @default.
W2017292998 hasConceptScore W2017292998C120665830 @default.
W2017292998 hasConceptScore W2017292998C121332964 @default.
W2017292998 hasConceptScore W2017292998C125287762 @default.
W2017292998 hasConceptScore W2017292998C1276947 @default.
W2017292998 hasConceptScore W2017292998C134121241 @default.
W2017292998 hasConceptScore W2017292998C147120987 @default.
W2017292998 hasConceptScore W2017292998C171627272 @default.
W2017292998 hasConceptScore W2017292998C184779094 @default.