FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2118778629> ?p ?o ?g. }

• W2118778629 endingPage "169" @default.
• W2118778629 startingPage "151" @default.
• W2118778629 abstract "In this paper, the dispersive properties and switching state of three-dimensional (3D) photonic crystals (PCs) with diamond lattices, which are composed of the core isotropic dielectric spheres with surrounded by the epsilon-negative (ENG) materials shells inserted in the isotropic dielectric background (air), are theoretically investigated in detail based on a modifled plane wave expansion method. The wavelength division multiplexer can be realized easily by tuning the switching state of such PCs. The equations for computing band structures for such 3D PCs are presented. Our analysis shows that the proposed double-shell structures can obtain the complete photonic band gaps (PBGs) which can be used to realize optical switching by manipulating the radius of core dielectric sphere, the relative dielectric constant of background, the dielectric constant of ENG materials and the electronic plasma frequency, respectively. However, the thickness of the ENG materials shell cannot change the switching state as the radius of core dielectric sphere is certain. Numerical simulations also show that a ∞atband region, and the stop band gaps (SBGs) in (1 0 0) and (1 1 1) directions which are above the ∞atband region can be achieved. The SBGs in (1 0 0) and (1 1 1) directions can also be tuned by the parameters as mentioned above. There also exists a threshold value for the thickness of ENG material shell, which can make the band structures for the 3D PCs with double-shell structures similar to those obtained from the same structure containing the pure ENG materials spheres. In this case, the inserted core sphere will not afiect the band structures. It means that we can achieve the PBGs by replacing the pure ENG materials spheres by such double-shell structures to make fabricate easily and save the material in the realization. It is also noticed that the ∞atband region is determined by the existence of surface-plasmon modes, and the upper edge of ∞atband region does not depend on the topology of lattice. Such presented 3D PCs with double-shell structures ofier a novel way to realize the wavelength division multiplexers." @default.
• W2118778629 created "2016-06-24" @default.
• W2118778629 creator A5001198279 @default.
• W2118778629 creator A5061023477 @default.
• W2118778629 creator A5067374383 @default.
• W2118778629 date "2014-01-01" @default.
• W2118778629 modified "2023-09-26" @default.
• W2118778629 title "THE WAVELENGTH DIVISION MULTIPLEXER REALIZED IN THREE-DIMENSIONAL UNUSUAL SURFACE-PLASMON-INDUCED PHOTONIC CRYSTALS COMPOSED OF THE EPSILON-NEGATIVE MATERIALS SHELLS" @default.
• W2118778629 cites W131274944 @default.
• W2118778629 cites W1507437630 @default.
• W2118778629 cites W1965275531 @default.
• W2118778629 cites W1971459185 @default.
• W2118778629 cites W1973127864 @default.
• W2118778629 cites W1974405452 @default.
• W2118778629 cites W1981860671 @default.
• W2118778629 cites W1987027884 @default.
• W2118778629 cites W1988163461 @default.
• W2118778629 cites W1991994647 @default.
• W2118778629 cites W1999282682 @default.
• W2118778629 cites W2007637279 @default.
• W2118778629 cites W2007866747 @default.
• W2118778629 cites W2015408750 @default.
• W2118778629 cites W2022347974 @default.
• W2118778629 cites W2022626091 @default.
• W2118778629 cites W2025169742 @default.
• W2118778629 cites W2026769465 @default.
• W2118778629 cites W2027652501 @default.
• W2118778629 cites W2031177509 @default.
• W2118778629 cites W2031730014 @default.
• W2118778629 cites W2038815299 @default.
• W2118778629 cites W2040629358 @default.
• W2118778629 cites W2043496638 @default.
• W2118778629 cites W2044105559 @default.
• W2118778629 cites W2044717656 @default.
• W2118778629 cites W2046196846 @default.
• W2118778629 cites W2046379641 @default.
• W2118778629 cites W2053894319 @default.
• W2118778629 cites W2061357683 @default.
• W2118778629 cites W2072303629 @default.
• W2118778629 cites W2075689277 @default.
• W2118778629 cites W2077223041 @default.
• W2118778629 cites W2079234374 @default.
• W2118778629 cites W2080749232 @default.
• W2118778629 cites W2089901062 @default.
• W2118778629 cites W2092388013 @default.
• W2118778629 cites W2094054928 @default.
• W2118778629 cites W2099329557 @default.
• W2118778629 cites W2107051758 @default.
• W2118778629 cites W2111500544 @default.
• W2118778629 cites W2111943187 @default.
• W2118778629 cites W2113713862 @default.
• W2118778629 cites W2118119772 @default.
• W2118778629 cites W2122765624 @default.
• W2118778629 cites W2155018300 @default.
• W2118778629 cites W2160065557 @default.
• W2118778629 cites W2165718681 @default.
• W2118778629 cites W3143943687 @default.
• W2118778629 doi "https://doi.org/10.2528/pier13110101" @default.
• W2118778629 hasPublicationYear "2014" @default.
• W2118778629 type Work @default.
• W2118778629 sameAs 2118778629 @default.
• W2118778629 citedByCount "1" @default.
• W2118778629 countsByYear W21187786292014 @default.
• W2118778629 crossrefType "journal-article" @default.
• W2118778629 hasAuthorship W2118778629A5001198279 @default.
• W2118778629 hasAuthorship W2118778629A5061023477 @default.
• W2118778629 hasAuthorship W2118778629A5067374383 @default.
• W2118778629 hasBestOaLocation W21187786291 @default.
• W2118778629 hasConcept C115827552 @default.
• W2118778629 hasConcept C120665830 @default.
• W2118778629 hasConcept C121332964 @default.
• W2118778629 hasConcept C133386390 @default.
• W2118778629 hasConcept C159985019 @default.
• W2118778629 hasConcept C178635117 @default.
• W2118778629 hasConcept C184050105 @default.
• W2118778629 hasConcept C192562407 @default.
• W2118778629 hasConcept C20788544 @default.
• W2118778629 hasConcept C26873012 @default.
• W2118778629 hasConcept C2781052500 @default.
• W2118778629 hasConcept C38652104 @default.
• W2118778629 hasConcept C41008148 @default.
• W2118778629 hasConcept C46271340 @default.
• W2118778629 hasConcept C49040817 @default.
• W2118778629 hasConcept C6260449 @default.
• W2118778629 hasConcept C75302062 @default.
• W2118778629 hasConcept C97126364 @default.
• W2118778629 hasConceptScore W2118778629C115827552 @default.
• W2118778629 hasConceptScore W2118778629C120665830 @default.
• W2118778629 hasConceptScore W2118778629C121332964 @default.
• W2118778629 hasConceptScore W2118778629C133386390 @default.
• W2118778629 hasConceptScore W2118778629C159985019 @default.
• W2118778629 hasConceptScore W2118778629C178635117 @default.
• W2118778629 hasConceptScore W2118778629C184050105 @default.
• W2118778629 hasConceptScore W2118778629C192562407 @default.
• W2118778629 hasConceptScore W2118778629C20788544 @default.
• W2118778629 hasConceptScore W2118778629C26873012 @default.
• W2118778629 hasConceptScore W2118778629C2781052500 @default.
• W2118778629 hasConceptScore W2118778629C38652104 @default.

• next