SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2158889302> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W2158889302 endingPage "200" @default.
W2158889302 startingPage "192" @default.
W2158889302 abstract "Two side effects introduced on surfaces of electronic materials by ion bombardment, namely compositional changes (for compound semiconductors) and topography changes are discussed. Based on the relative elemental sensitivity factor method with matrix corrections for quantitative AES or XPS analysis, a sputter correction factor is defined to compensate for bombardment induced surface compositional changes. Using several popular preferential sputter models and comparing their predictions to a synopsis of published experimental AES and XPS measurements on argon bombarded binary compound semiconductors, a sputter correction factor for these materials are proposed. The extent of bombardment-induced topography depends primarily on the substrate material while the ion beam characteristics play only a secondary role. Due to the complexity of and the many processes involved in ion/solid interactions, bombardment-induced topography is not well understood. Several quantitative and qualitative theories have been proposed to explain the experimental data. Most of these theories are based on SEM or TEM data. The major disadvantage of these data is the lack of quantitative information. The advent of SPM (scanning probe microscopy) and the subsequent development of software have reversed this. A brief summary of SPM (AFM and STM) investigations of bombardment induced topography on semiconductor surfaces is given. Most studies have concentrated on the topography on Si, Ge, GaAs and InP surfaces with special emphasis on ripple development." @default.
W2158889302 created "2016-06-24" @default.
W2158889302 creator A5038811729 @default.
W2158889302 creator A5063625785 @default.
W2158889302 date "1999-04-01" @default.
W2158889302 modified "2023-09-26" @default.
W2158889302 title "Ion sputtering, surface topography, SPM and surface analysis of electronic materials" @default.
W2158889302 cites W1964783182 @default.
W2158889302 cites W1965457266 @default.
W2158889302 cites W1966541359 @default.
W2158889302 cites W1968458611 @default.
W2158889302 cites W1968775965 @default.
W2158889302 cites W1971713970 @default.
W2158889302 cites W1977336318 @default.
W2158889302 cites W1977719938 @default.
W2158889302 cites W1979259823 @default.
W2158889302 cites W1979545045 @default.
W2158889302 cites W1979830703 @default.
W2158889302 cites W1983870858 @default.
W2158889302 cites W1989953436 @default.
W2158889302 cites W1991837852 @default.
W2158889302 cites W1996117179 @default.
W2158889302 cites W1999402917 @default.
W2158889302 cites W2003107958 @default.
W2158889302 cites W2003128114 @default.
W2158889302 cites W2005366689 @default.
W2158889302 cites W2006540582 @default.
W2158889302 cites W2007726912 @default.
W2158889302 cites W2017516308 @default.
W2158889302 cites W2017809842 @default.
W2158889302 cites W2018356577 @default.
W2158889302 cites W2020442530 @default.
W2158889302 cites W2020896974 @default.
W2158889302 cites W2022364107 @default.
W2158889302 cites W2022383148 @default.
W2158889302 cites W2024533978 @default.
W2158889302 cites W2024820381 @default.
W2158889302 cites W2025937078 @default.
W2158889302 cites W2030549453 @default.
W2158889302 cites W2033921914 @default.
W2158889302 cites W2034642591 @default.
W2158889302 cites W2035200126 @default.
W2158889302 cites W2038555244 @default.
W2158889302 cites W2039076733 @default.
W2158889302 cites W2040184453 @default.
W2158889302 cites W2042724863 @default.
W2158889302 cites W2045721725 @default.
W2158889302 cites W2046343960 @default.
W2158889302 cites W2046736851 @default.
W2158889302 cites W2048734763 @default.
W2158889302 cites W2053989015 @default.
W2158889302 cites W2055086468 @default.
W2158889302 cites W2056766032 @default.
W2158889302 cites W2056873767 @default.
W2158889302 cites W2057312587 @default.
W2158889302 cites W2059392586 @default.
W2158889302 cites W2064067009 @default.
W2158889302 cites W2065502367 @default.
W2158889302 cites W2065545962 @default.
W2158889302 cites W2069407006 @default.
W2158889302 cites W2071855958 @default.
W2158889302 cites W2072573046 @default.
W2158889302 cites W2075115264 @default.
W2158889302 cites W2076073114 @default.
W2158889302 cites W2077046178 @default.
W2158889302 cites W2080075068 @default.
W2158889302 cites W2087900759 @default.
W2158889302 cites W2088328829 @default.
W2158889302 cites W2090549584 @default.
W2158889302 cites W2091142360 @default.
W2158889302 cites W2093628485 @default.
W2158889302 cites W2093814538 @default.
W2158889302 cites W2093940483 @default.
W2158889302 cites W2107558564 @default.
W2158889302 cites W2110167104 @default.
W2158889302 cites W2136908895 @default.
W2158889302 cites W2170262346 @default.
W2158889302 cites W2492510350 @default.
W2158889302 cites W4230053467 @default.
W2158889302 cites W72147174 @default.
W2158889302 cites W960166421 @default.
W2158889302 doi "https://doi.org/10.1016/s0169-4332(98)00796-x" @default.
W2158889302 hasPublicationYear "1999" @default.
W2158889302 type Work @default.
W2158889302 sameAs 2158889302 @default.
W2158889302 citedByCount "14" @default.
W2158889302 countsByYear W21588893022012 @default.
W2158889302 countsByYear W21588893022017 @default.
W2158889302 crossrefType "journal-article" @default.
W2158889302 hasAuthorship W2158889302A5038811729 @default.
W2158889302 hasAuthorship W2158889302A5063625785 @default.
W2158889302 hasConcept C108225325 @default.
W2158889302 hasConcept C113196181 @default.
W2158889302 hasConcept C121332964 @default.
W2158889302 hasConcept C127413603 @default.
W2158889302 hasConcept C145148216 @default.
W2158889302 hasConcept C159467904 @default.
W2158889302 hasConcept C171250308 @default.