SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1978532162> ?p ?o ?g. }

Showing items 1 to 100 of ±128 with 100 items per page.

W1978532162 endingPage "065001" @default.
W1978532162 startingPage "065001" @default.
W1978532162 abstract "The Mie theory gives the exact solution to scattering from spherical particles while the Fresnel theory provides the solution to optical behavior of multilayer thin film structures. Often, the bridge between the two theories to explain the behavior of materials such as nanoparticles in a host dielectric matrix, is done by effective medium approximation (EMA) models which exclusively rely on the dipolar response of the scattering objects. Here, we present a way to capture multipole effects using EMA. The effective complex dielectric function of the composite is derived using the Clausius–Mossotti relation and the multipole coefficients of the approximate Mie theory. The optical density (OD) of the dielectric slab is then calculated using the Fresnel approach. We have applied the resulting equation to predict the particle size dependent dipole and quadrupole behavior for spherical Ag nanoparticles embedded in glass matrix. This dielectric function contains the relevant properties of EMA and at the same time predicts the multipole contributions present in the single particle Mie model." @default.
W1978532162 created "2016-06-24" @default.
W1978532162 creator A5055239888 @default.
W1978532162 creator A5057818638 @default.
W1978532162 creator A5087654351 @default.
W1978532162 date "2014-05-08" @default.
W1978532162 modified "2023-09-27" @default.
W1978532162 title "From Mie to Fresnel through effective medium approximation with multipole contributions" @default.
W1978532162 cites W1556801875 @default.
W1978532162 cites W1963799104 @default.
W1978532162 cites W1971810396 @default.
W1978532162 cites W1984918423 @default.
W1978532162 cites W1985074332 @default.
W1978532162 cites W1987880468 @default.
W1978532162 cites W2000030829 @default.
W1978532162 cites W2006097695 @default.
W1978532162 cites W2006882472 @default.
W1978532162 cites W2016778249 @default.
W1978532162 cites W2018519847 @default.
W1978532162 cites W2019679930 @default.
W1978532162 cites W2019987186 @default.
W1978532162 cites W2023613263 @default.
W1978532162 cites W2024557266 @default.
W1978532162 cites W2030404731 @default.
W1978532162 cites W2034829016 @default.
W1978532162 cites W2038504561 @default.
W1978532162 cites W2040676637 @default.
W1978532162 cites W2050249635 @default.
W1978532162 cites W2057461869 @default.
W1978532162 cites W2062921532 @default.
W1978532162 cites W2067452067 @default.
W1978532162 cites W2082193883 @default.
W1978532162 cites W2084250200 @default.
W1978532162 cites W2087289751 @default.
W1978532162 cites W2090488348 @default.
W1978532162 cites W2099592214 @default.
W1978532162 cites W2124595344 @default.
W1978532162 cites W2125893095 @default.
W1978532162 cites W2132587921 @default.
W1978532162 cites W2139036618 @default.
W1978532162 cites W2139782007 @default.
W1978532162 cites W2142063750 @default.
W1978532162 cites W2145687484 @default.
W1978532162 cites W2152318224 @default.
W1978532162 cites W2225203892 @default.
W1978532162 cites W2910766595 @default.
W1978532162 cites W2990983896 @default.
W1978532162 doi "https://doi.org/10.1088/2040-8978/16/6/065001" @default.
W1978532162 hasPublicationYear "2014" @default.
W1978532162 type Work @default.
W1978532162 sameAs 1978532162 @default.
W1978532162 citedByCount "21" @default.
W1978532162 countsByYear W19785321622014 @default.
W1978532162 countsByYear W19785321622015 @default.
W1978532162 countsByYear W19785321622016 @default.
W1978532162 countsByYear W19785321622017 @default.
W1978532162 countsByYear W19785321622018 @default.
W1978532162 countsByYear W19785321622019 @default.
W1978532162 countsByYear W19785321622020 @default.
W1978532162 countsByYear W19785321622021 @default.
W1978532162 countsByYear W19785321622022 @default.
W1978532162 crossrefType "journal-article" @default.
W1978532162 hasAuthorship W1978532162A5055239888 @default.
W1978532162 hasAuthorship W1978532162A5057818638 @default.
W1978532162 hasAuthorship W1978532162A5087654351 @default.
W1978532162 hasConcept C106487976 @default.
W1978532162 hasConcept C111368507 @default.
W1978532162 hasConcept C120456961 @default.
W1978532162 hasConcept C120665830 @default.
W1978532162 hasConcept C121332964 @default.
W1978532162 hasConcept C127313418 @default.
W1978532162 hasConcept C133386390 @default.
W1978532162 hasConcept C135115559 @default.
W1978532162 hasConcept C153837357 @default.
W1978532162 hasConcept C159985019 @default.
W1978532162 hasConcept C173523689 @default.
W1978532162 hasConcept C191486275 @default.
W1978532162 hasConcept C192562407 @default.
W1978532162 hasConcept C2778517922 @default.
W1978532162 hasConcept C30475298 @default.
W1978532162 hasConcept C39984356 @default.
W1978532162 hasConcept C42067758 @default.
W1978532162 hasConcept C49874194 @default.
W1978532162 hasConcept C52765159 @default.
W1978532162 hasConcept C62520636 @default.
W1978532162 hasConcept C63688654 @default.
W1978532162 hasConceptScore W1978532162C106487976 @default.
W1978532162 hasConceptScore W1978532162C111368507 @default.
W1978532162 hasConceptScore W1978532162C120456961 @default.
W1978532162 hasConceptScore W1978532162C120665830 @default.
W1978532162 hasConceptScore W1978532162C121332964 @default.
W1978532162 hasConceptScore W1978532162C127313418 @default.
W1978532162 hasConceptScore W1978532162C133386390 @default.
W1978532162 hasConceptScore W1978532162C135115559 @default.
W1978532162 hasConceptScore W1978532162C153837357 @default.
W1978532162 hasConceptScore W1978532162C159985019 @default.
W1978532162 hasConceptScore W1978532162C173523689 @default.
W1978532162 hasConceptScore W1978532162C191486275 @default.