Matches in SemOpenAlex for { <https://semopenalex.org/work/W2896411882> ?p ?o ?g. }
- W2896411882 abstract "Silica glass is an optically homogeneous material with many practical applications. Unlike crystalline materials, it remains optically homogeneous during transformations. However, high-pressure in situ small-angle x-ray-scattering measurements indicate an increase in the scattering intensity during the transformation in short-range order between fourfold-coordinated and sixfold-coordinated amorphous polymorphs, providing strong evidence for heterogeneity. Detailed analyses suggest that silica glass consists of optically invisible subnanometer-scale domains for the two amorphous polymorphs and boundary region between them. The boundary region, which likely has an intermediate structure, is comparable in size to the domains, and works as a buffer to prevent the glass from cracking during the transformation. The transformation is more drastic and the domains are more distinct upon decompression than compression." @default.
- W2896411882 created "2018-10-26" @default.
- W2896411882 creator A5001008059 @default.
- W2896411882 creator A5016227631 @default.
- W2896411882 creator A5029599788 @default.
- W2896411882 creator A5079043903 @default.
- W2896411882 creator A5087087778 @default.
- W2896411882 date "2018-10-18" @default.
- W2896411882 modified "2023-09-23" @default.
- W2896411882 title "Coexistence of two states in optically homogeneous silica glass during the transformation in short-range order" @default.
- W2896411882 cites W1963936112 @default.
- W2896411882 cites W1964403765 @default.
- W2896411882 cites W1973505497 @default.
- W2896411882 cites W1976695464 @default.
- W2896411882 cites W1988121947 @default.
- W2896411882 cites W1990092256 @default.
- W2896411882 cites W1992832721 @default.
- W2896411882 cites W2003652657 @default.
- W2896411882 cites W2003772128 @default.
- W2896411882 cites W2010295455 @default.
- W2896411882 cites W2010415951 @default.
- W2896411882 cites W2015423321 @default.
- W2896411882 cites W2018421626 @default.
- W2896411882 cites W2027831881 @default.
- W2896411882 cites W2035996500 @default.
- W2896411882 cites W2036175463 @default.
- W2896411882 cites W2041952813 @default.
- W2896411882 cites W2042116446 @default.
- W2896411882 cites W2048910407 @default.
- W2896411882 cites W2054292521 @default.
- W2896411882 cites W2055462520 @default.
- W2896411882 cites W2061713617 @default.
- W2896411882 cites W2061897019 @default.
- W2896411882 cites W2063374311 @default.
- W2896411882 cites W2064097355 @default.
- W2896411882 cites W2066012416 @default.
- W2896411882 cites W2080819345 @default.
- W2896411882 cites W2081976294 @default.
- W2896411882 cites W2084244550 @default.
- W2896411882 cites W2088912232 @default.
- W2896411882 cites W2089966012 @default.
- W2896411882 cites W2091235315 @default.
- W2896411882 cites W2094523851 @default.
- W2896411882 cites W2238698362 @default.
- W2896411882 cites W2318826418 @default.
- W2896411882 cites W2323163494 @default.
- W2896411882 cites W2323398558 @default.
- W2896411882 cites W2753685605 @default.
- W2896411882 cites W2769309457 @default.
- W2896411882 cites W2794958246 @default.
- W2896411882 doi "https://doi.org/10.1103/physrevb.98.144111" @default.
- W2896411882 hasPublicationYear "2018" @default.
- W2896411882 type Work @default.
- W2896411882 sameAs 2896411882 @default.
- W2896411882 citedByCount "13" @default.
- W2896411882 countsByYear W28964118822019 @default.
- W2896411882 countsByYear W28964118822020 @default.
- W2896411882 countsByYear W28964118822021 @default.
- W2896411882 countsByYear W28964118822022 @default.
- W2896411882 countsByYear W28964118822023 @default.
- W2896411882 crossrefType "journal-article" @default.
- W2896411882 hasAuthorship W2896411882A5001008059 @default.
- W2896411882 hasAuthorship W2896411882A5016227631 @default.
- W2896411882 hasAuthorship W2896411882A5029599788 @default.
- W2896411882 hasAuthorship W2896411882A5079043903 @default.
- W2896411882 hasAuthorship W2896411882A5087087778 @default.
- W2896411882 hasConcept C10138342 @default.
- W2896411882 hasConcept C104317684 @default.
- W2896411882 hasConcept C121332964 @default.
- W2896411882 hasConcept C159985019 @default.
- W2896411882 hasConcept C162324750 @default.
- W2896411882 hasConcept C182306322 @default.
- W2896411882 hasConcept C185592680 @default.
- W2896411882 hasConcept C192562407 @default.
- W2896411882 hasConcept C204241405 @default.
- W2896411882 hasConcept C204323151 @default.
- W2896411882 hasConcept C26873012 @default.
- W2896411882 hasConcept C2778931360 @default.
- W2896411882 hasConcept C3020492233 @default.
- W2896411882 hasConcept C55493867 @default.
- W2896411882 hasConcept C66882249 @default.
- W2896411882 hasConcept C97355855 @default.
- W2896411882 hasConceptScore W2896411882C10138342 @default.
- W2896411882 hasConceptScore W2896411882C104317684 @default.
- W2896411882 hasConceptScore W2896411882C121332964 @default.
- W2896411882 hasConceptScore W2896411882C159985019 @default.
- W2896411882 hasConceptScore W2896411882C162324750 @default.
- W2896411882 hasConceptScore W2896411882C182306322 @default.
- W2896411882 hasConceptScore W2896411882C185592680 @default.
- W2896411882 hasConceptScore W2896411882C192562407 @default.
- W2896411882 hasConceptScore W2896411882C204241405 @default.
- W2896411882 hasConceptScore W2896411882C204323151 @default.
- W2896411882 hasConceptScore W2896411882C26873012 @default.
- W2896411882 hasConceptScore W2896411882C2778931360 @default.
- W2896411882 hasConceptScore W2896411882C3020492233 @default.
- W2896411882 hasConceptScore W2896411882C55493867 @default.
- W2896411882 hasConceptScore W2896411882C66882249 @default.
- W2896411882 hasConceptScore W2896411882C97355855 @default.
- W2896411882 hasIssue "14" @default.
- W2896411882 hasLocation W28964118821 @default.