SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2894979502> ?p ?o ?g. }

Showing items 1 to 100 of ±132 with 100 items per page.

W2894979502 endingPage "4202" @default.
W2894979502 startingPage "4195" @default.
W2894979502 abstract "In recent years, tunnel junctions have reemerged as promising candidates for the transduction of electrical to optical signals at the nanoscale. The process of interest is known as inelastic electron tunneling (IET), where a tunneling electron excites an optical mode while traversing the tunnel barrier. The main appeal of tunnel junctions lies in their size and bandwidth, both of which are unmatched by other electronic devices. However, their main disadvantage so far has been the overall low transduction efficiency. Recently, the realization of photon(1) and surface plasmon polariton (SPP)(2) sources based on IET, with efficiencies exceeding 1%, were reported. In this perspective, we critically analyze the factors that limit efficiencies and extract guidelines for the development of efficient photon and SPP sources." @default.
W2894979502 created "2018-10-12" @default.
W2894979502 creator A5016100217 @default.
W2894979502 creator A5082074300 @default.
W2894979502 date "2018-10-04" @default.
W2894979502 modified "2023-09-25" @default.
W2894979502 title "Light at the End of the Tunnel" @default.
W2894979502 cites W167398552 @default.
W2894979502 cites W1965171843 @default.
W2894979502 cites W1967188602 @default.
W2894979502 cites W1974391524 @default.
W2894979502 cites W1976078101 @default.
W2894979502 cites W1982762932 @default.
W2894979502 cites W1982861793 @default.
W2894979502 cites W1983989573 @default.
W2894979502 cites W1985854442 @default.
W2894979502 cites W1987095842 @default.
W2894979502 cites W1992236371 @default.
W2894979502 cites W2000834326 @default.
W2894979502 cites W2002875858 @default.
W2894979502 cites W2010233791 @default.
W2894979502 cites W2017321151 @default.
W2894979502 cites W2022817947 @default.
W2894979502 cites W2023251999 @default.
W2894979502 cites W2038814313 @default.
W2894979502 cites W2039404845 @default.
W2894979502 cites W2041063763 @default.
W2894979502 cites W2043447946 @default.
W2894979502 cites W2057136149 @default.
W2894979502 cites W2057686041 @default.
W2894979502 cites W2057713589 @default.
W2894979502 cites W2059588446 @default.
W2894979502 cites W2062179936 @default.
W2894979502 cites W2062386001 @default.
W2894979502 cites W2067815732 @default.
W2894979502 cites W2072896427 @default.
W2894979502 cites W2079101093 @default.
W2894979502 cites W2086228239 @default.
W2894979502 cites W2091661248 @default.
W2894979502 cites W2123015204 @default.
W2894979502 cites W2123916217 @default.
W2894979502 cites W2134516189 @default.
W2894979502 cites W2139872781 @default.
W2894979502 cites W2151957987 @default.
W2894979502 cites W2221000949 @default.
W2894979502 cites W2239278858 @default.
W2894979502 cites W2305503830 @default.
W2894979502 cites W2315383844 @default.
W2894979502 cites W2316738004 @default.
W2894979502 cites W2324590536 @default.
W2894979502 cites W2518048220 @default.
W2894979502 cites W2549958789 @default.
W2894979502 cites W2612591447 @default.
W2894979502 cites W2766513212 @default.
W2894979502 cites W27826423 @default.
W2894979502 cites W2793975975 @default.
W2894979502 cites W2883385786 @default.
W2894979502 cites W3098784648 @default.
W2894979502 cites W4241421291 @default.
W2894979502 cites W4252624634 @default.
W2894979502 cites W4255084180 @default.
W2894979502 doi "https://doi.org/10.1021/acsphotonics.8b00726" @default.
W2894979502 hasPublicationYear "2018" @default.
W2894979502 type Work @default.
W2894979502 sameAs 2894979502 @default.
W2894979502 citedByCount "48" @default.
W2894979502 countsByYear W28949795022018 @default.
W2894979502 countsByYear W28949795022019 @default.
W2894979502 countsByYear W28949795022020 @default.
W2894979502 countsByYear W28949795022021 @default.
W2894979502 countsByYear W28949795022022 @default.
W2894979502 countsByYear W28949795022023 @default.
W2894979502 crossrefType "journal-article" @default.
W2894979502 hasAuthorship W2894979502A5016100217 @default.
W2894979502 hasAuthorship W2894979502A5082074300 @default.
W2894979502 hasBestOaLocation W28949795022 @default.
W2894979502 hasConcept C110879396 @default.
W2894979502 hasConcept C120398109 @default.
W2894979502 hasConcept C120665830 @default.
W2894979502 hasConcept C121332964 @default.
W2894979502 hasConcept C136676167 @default.
W2894979502 hasConcept C147120987 @default.
W2894979502 hasConcept C150835508 @default.
W2894979502 hasConcept C159317903 @default.
W2894979502 hasConcept C171250308 @default.
W2894979502 hasConcept C192562407 @default.
W2894979502 hasConcept C20788544 @default.
W2894979502 hasConcept C27289702 @default.
W2894979502 hasConcept C45206210 @default.
W2894979502 hasConcept C49040817 @default.
W2894979502 hasConcept C62520636 @default.
W2894979502 hasConcept C83408046 @default.
W2894979502 hasConceptScore W2894979502C110879396 @default.
W2894979502 hasConceptScore W2894979502C120398109 @default.
W2894979502 hasConceptScore W2894979502C120665830 @default.
W2894979502 hasConceptScore W2894979502C121332964 @default.
W2894979502 hasConceptScore W2894979502C136676167 @default.
W2894979502 hasConceptScore W2894979502C147120987 @default.