SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2076561036> ?p ?o ?g. }

Showing items 1 to 100 of ±165 with 100 items per page.

W2076561036 endingPage "2068" @default.
W2076561036 startingPage "2064" @default.
W2076561036 abstract "Unusual performances of metamaterials such as negative index of refraction, memory effect, and cloaking originate from the resonance features of the metallic composite atom(1-6). Indeed, control of metamaterial properties by changing dielectric environments of thin films below the metallic resonators has been demonstrated(7-11). However, the dynamic control ranges are still limited to less than a factor of 10,(7-11) with the applicable bandwidth defined by the sharp resonance features. Here, we present ultra-broad-band metamaterial thin film with colossal dynamic control range, fulfilling present day research demands. Hybridized with thin VO(2) (vanadium dioxide) (12-18) films, nanoresonator supercell arrays designed for one decade of spectral width in terahertz frequency region show an unprecedented extinction ratio of over 10000 when the underlying thin film experiences a phase transition. Our nanoresonator approach realizes the full potential of the thin film technology for long wavelength applications." @default.
W2076561036 created "2016-06-24" @default.
W2076561036 creator A5001130772 @default.
W2076561036 creator A5009965812 @default.
W2076561036 creator A5025207722 @default.
W2076561036 creator A5029276446 @default.
W2076561036 creator A5031426303 @default.
W2076561036 creator A5034564647 @default.
W2076561036 creator A5047602571 @default.
W2076561036 creator A5049937821 @default.
W2076561036 creator A5049991540 @default.
W2076561036 creator A5079986554 @default.
W2076561036 creator A5081882380 @default.
W2076561036 creator A5085344463 @default.
W2076561036 creator A5086648460 @default.
W2076561036 creator A5090628927 @default.
W2076561036 date "2010-05-14" @default.
W2076561036 modified "2023-10-04" @default.
W2076561036 title "Active Terahertz Nanoantennas Based on VO<sub>2</sub> Phase Transition" @default.
W2076561036 cites W1973315818 @default.
W2076561036 cites W1977536663 @default.
W2076561036 cites W1978654048 @default.
W2076561036 cites W1984265549 @default.
W2076561036 cites W1986840356 @default.
W2076561036 cites W1989082598 @default.
W2076561036 cites W1991142698 @default.
W2076561036 cites W1991552750 @default.
W2076561036 cites W1995575412 @default.
W2076561036 cites W1998264391 @default.
W2076561036 cites W2003977635 @default.
W2076561036 cites W2013163501 @default.
W2076561036 cites W2019616022 @default.
W2076561036 cites W2036971618 @default.
W2076561036 cites W2041099960 @default.
W2076561036 cites W2042656424 @default.
W2076561036 cites W2048463312 @default.
W2076561036 cites W2055541726 @default.
W2076561036 cites W2057209216 @default.
W2076561036 cites W2062614131 @default.
W2076561036 cites W2062957426 @default.
W2076561036 cites W2063127869 @default.
W2076561036 cites W2063713374 @default.
W2076561036 cites W2066587667 @default.
W2076561036 cites W2070161878 @default.
W2076561036 cites W2071996613 @default.
W2076561036 cites W2080288105 @default.
W2076561036 cites W2082002020 @default.
W2076561036 cites W2087634138 @default.
W2076561036 cites W2088202037 @default.
W2076561036 cites W2123190656 @default.
W2076561036 cites W2127007102 @default.
W2076561036 cites W2130161371 @default.
W2076561036 cites W2130179890 @default.
W2076561036 cites W2140108332 @default.
W2076561036 cites W2143777514 @default.
W2076561036 cites W2145726158 @default.
W2076561036 cites W2165498076 @default.
W2076561036 cites W3037767763 @default.
W2076561036 cites W3099101132 @default.
W2076561036 cites W4229940949 @default.
W2076561036 doi "https://doi.org/10.1021/nl1002153" @default.
W2076561036 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20469898" @default.
W2076561036 hasPublicationYear "2010" @default.
W2076561036 type Work @default.
W2076561036 sameAs 2076561036 @default.
W2076561036 citedByCount "322" @default.
W2076561036 countsByYear W20765610362012 @default.
W2076561036 countsByYear W20765610362013 @default.
W2076561036 countsByYear W20765610362014 @default.
W2076561036 countsByYear W20765610362015 @default.
W2076561036 countsByYear W20765610362016 @default.
W2076561036 countsByYear W20765610362017 @default.
W2076561036 countsByYear W20765610362018 @default.
W2076561036 countsByYear W20765610362019 @default.
W2076561036 countsByYear W20765610362020 @default.
W2076561036 countsByYear W20765610362021 @default.
W2076561036 countsByYear W20765610362022 @default.
W2076561036 countsByYear W20765610362023 @default.
W2076561036 crossrefType "journal-article" @default.
W2076561036 hasAuthorship W2076561036A5001130772 @default.
W2076561036 hasAuthorship W2076561036A5009965812 @default.
W2076561036 hasAuthorship W2076561036A5025207722 @default.
W2076561036 hasAuthorship W2076561036A5029276446 @default.
W2076561036 hasAuthorship W2076561036A5031426303 @default.
W2076561036 hasAuthorship W2076561036A5034564647 @default.
W2076561036 hasAuthorship W2076561036A5047602571 @default.
W2076561036 hasAuthorship W2076561036A5049937821 @default.
W2076561036 hasAuthorship W2076561036A5049991540 @default.
W2076561036 hasAuthorship W2076561036A5079986554 @default.
W2076561036 hasAuthorship W2076561036A5081882380 @default.
W2076561036 hasAuthorship W2076561036A5085344463 @default.
W2076561036 hasAuthorship W2076561036A5086648460 @default.
W2076561036 hasAuthorship W2076561036A5090628927 @default.
W2076561036 hasBestOaLocation W20765610362 @default.
W2076561036 hasConcept C107816215 @default.
W2076561036 hasConcept C110367647 @default.
W2076561036 hasConcept C110879396 @default.
W2076561036 hasConcept C120665830 @default.