SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2012472583> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2012472583 endingPage "1400" @default.
W2012472583 startingPage "1392" @default.
W2012472583 abstract "We have performed total-energy density-functional calculations using first-principles pseudopotentials to determine the atomic and electronic structure of neutral surface and subsurface vacancies at the GaP (110) surface. The cation as well as the anion surface vacancy show a pronounced inward relaxation of the three nearest-neighbor atoms towards the vacancy while the surface point-group symmetry is maintained. For both types of vacancies we find a singly occupied level at midgap. Subsurface vacancies below the second layer display essentially the same properties as bulk defects. Our results for vacancies in the second layer show features not observed for either surface or bulk vacancies: Large relaxations occur and both defects are unstable against the formation of antisite vacancy complexes. Simulating scanning tunneling microscope pictures of the different vacancies, we find excellent agreement with experimental data for the surface vacancies and predict the signatures of subsurface vacancies." @default.
W2012472583 created "2016-06-24" @default.
W2012472583 creator A5000371440 @default.
W2012472583 creator A5042243543 @default.
W2012472583 creator A5047496331 @default.
W2012472583 creator A5067145443 @default.
W2012472583 date "1998-07-15" @default.
W2012472583 modified "2023-10-06" @default.
W2012472583 title "Electronic and structural properties of vacancies on and below the GaP(110) surface" @default.
W2012472583 cites W1965163125 @default.
W2012472583 cites W1965810365 @default.
W2012472583 cites W1966835536 @default.
W2012472583 cites W1967943447 @default.
W2012472583 cites W1972750775 @default.
W2012472583 cites W1973964783 @default.
W2012472583 cites W1977220262 @default.
W2012472583 cites W1980358437 @default.
W2012472583 cites W1984558013 @default.
W2012472583 cites W1985854442 @default.
W2012472583 cites W1986990452 @default.
W2012472583 cites W1996686931 @default.
W2012472583 cites W2001721411 @default.
W2012472583 cites W2003075949 @default.
W2012472583 cites W2003198897 @default.
W2012472583 cites W2004058701 @default.
W2012472583 cites W2004318554 @default.
W2012472583 cites W2005715793 @default.
W2012472583 cites W2007566610 @default.
W2012472583 cites W2017452719 @default.
W2012472583 cites W2017871178 @default.
W2012472583 cites W2020016651 @default.
W2012472583 cites W2024962018 @default.
W2012472583 cites W2026907619 @default.
W2012472583 cites W2031836087 @default.
W2012472583 cites W2036113194 @default.
W2012472583 cites W2038323925 @default.
W2012472583 cites W2040306273 @default.
W2012472583 cites W2041205942 @default.
W2012472583 cites W2044939782 @default.
W2012472583 cites W2050619436 @default.
W2012472583 cites W2051254189 @default.
W2012472583 cites W2052637367 @default.
W2012472583 cites W2054675598 @default.
W2012472583 cites W2056936849 @default.
W2012472583 cites W2057190878 @default.
W2012472583 cites W2058853966 @default.
W2012472583 cites W2062113623 @default.
W2012472583 cites W2064734424 @default.
W2012472583 cites W2064822033 @default.
W2012472583 cites W2069037443 @default.
W2012472583 cites W2072008701 @default.
W2012472583 cites W2073052268 @default.
W2012472583 cites W2073242874 @default.
W2012472583 cites W2076089954 @default.
W2012472583 cites W2079679010 @default.
W2012472583 cites W2084130548 @default.
W2012472583 cites W2086071895 @default.
W2012472583 cites W2088975366 @default.
W2012472583 cites W2089206055 @default.
W2012472583 cites W2095875973 @default.
W2012472583 cites W2118812620 @default.
W2012472583 doi "https://doi.org/10.1103/physrevb.58.1392" @default.
W2012472583 hasPublicationYear "1998" @default.
W2012472583 type Work @default.
W2012472583 sameAs 2012472583 @default.
W2012472583 citedByCount "44" @default.
W2012472583 countsByYear W20124725832012 @default.
W2012472583 countsByYear W20124725832013 @default.
W2012472583 countsByYear W20124725832014 @default.
W2012472583 countsByYear W20124725832017 @default.
W2012472583 countsByYear W20124725832021 @default.
W2012472583 crossrefType "journal-article" @default.
W2012472583 hasAuthorship W2012472583A5000371440 @default.
W2012472583 hasAuthorship W2012472583A5042243543 @default.
W2012472583 hasAuthorship W2012472583A5047496331 @default.
W2012472583 hasAuthorship W2012472583A5067145443 @default.
W2012472583 hasBestOaLocation W20124725832 @default.
W2012472583 hasConcept C114221277 @default.
W2012472583 hasConcept C121332964 @default.
W2012472583 hasConcept C145148216 @default.
W2012472583 hasConcept C15744967 @default.
W2012472583 hasConcept C159467904 @default.
W2012472583 hasConcept C164675345 @default.
W2012472583 hasConcept C171250308 @default.
W2012472583 hasConcept C181966813 @default.
W2012472583 hasConcept C192562407 @default.
W2012472583 hasConcept C2524010 @default.
W2012472583 hasConcept C26873012 @default.
W2012472583 hasConcept C2776029896 @default.
W2012472583 hasConcept C2776799497 @default.
W2012472583 hasConcept C33923547 @default.
W2012472583 hasConcept C41999313 @default.
W2012472583 hasConcept C49040817 @default.
W2012472583 hasConcept C62520636 @default.
W2012472583 hasConcept C6518042 @default.
W2012472583 hasConcept C77805123 @default.
W2012472583 hasConceptScore W2012472583C114221277 @default.
W2012472583 hasConceptScore W2012472583C121332964 @default.