FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2021104689> ?p ?o ?g. }

• W2021104689 endingPage "182" @default.
• W2021104689 startingPage "163" @default.
• W2021104689 abstract "The development of compact sensor and agile communications equipment together with electronically steerable antenna arrays for high mobility, on-the-move networking can be enhanced by use of nanoscale active thin film resonators, high stability frequency sources, integrated on-chip filters and complementary radiating structures supported by agile frequency selective surfaces. For mobile uses such as cell phones and highly mobile tactical communications, size and cost are severe additional constraints. Such systems also require miniaturized, high-Q passive components and interconnects which allow for high performance, including low noise, reduced coupling and reduced out-of-band interference, small volume and high-density. Active thin films can also be used to implement high quality resonators and tunable filters for use in high-density chip-based RFICs. Advanced filter technology using active thin films will enable a high level of integration. Such components would enable a system-on-a-chip architecture. Use of metamaterial frequency selective surfaces formed by fractal-space-filling-curve inclusions, together with non-linear thin-film elements or photonically-activated thin-film elements at a certain point(s) of each inclusion can be used to realize surface characteristics that can be potentially changed by an external field or an external optical signal. Finally, dense networks of carbon nanotube resonators offer the possibility of realizing CMOS-compatible reconfigurable systems and architectures. Keywords: Sensorsagile communicationsantennasactive thin films Acknowledgments The authors would like to acknowledge the generous support for a portion of this work by the U.S. Army Research Laboratory under Contract DAAD-19-01-2-0008, internal CERDEC R&D and DARPA investment." @default.
• W2021104689 created "2016-06-24" @default.
• W2021104689 creator A5009157476 @default.
• W2021104689 creator A5022669149 @default.
• W2021104689 creator A5052308231 @default.
• W2021104689 creator A5061220609 @default.
• W2021104689 creator A5064426444 @default.
• W2021104689 creator A5073681876 @default.
• W2021104689 date "2006-10-01" @default.
• W2021104689 modified "2023-10-17" @default.
• W2021104689 title "Nanotechnology and Active Thin Films for Compact RF Components and Agile Systems" @default.
• W2021104689 cites W1575656214 @default.
• W2021104689 cites W1965240395 @default.
• W2021104689 cites W1971282304 @default.
• W2021104689 cites W2010953919 @default.
• W2021104689 cites W2018858346 @default.
• W2021104689 cites W2026598388 @default.
• W2021104689 cites W2031975877 @default.
• W2021104689 cites W2050896238 @default.
• W2021104689 cites W2074163058 @default.
• W2021104689 cites W2090188179 @default.
• W2021104689 cites W2103118422 @default.
• W2021104689 cites W2104975868 @default.
• W2021104689 cites W2106217990 @default.
• W2021104689 cites W2124975223 @default.
• W2021104689 cites W2135809071 @default.
• W2021104689 cites W2147390802 @default.
• W2021104689 cites W2149304136 @default.
• W2021104689 cites W2156285590 @default.
• W2021104689 cites W2479435015 @default.
• W2021104689 cites W2492381587 @default.
• W2021104689 cites W2992726982 @default.
• W2021104689 cites W4230282064 @default.
• W2021104689 cites W4245932338 @default.
• W2021104689 doi "https://doi.org/10.1080/00150190600946328" @default.
• W2021104689 hasPublicationYear "2006" @default.
• W2021104689 type Work @default.
• W2021104689 sameAs 2021104689 @default.
• W2021104689 citedByCount "4" @default.
• W2021104689 countsByYear W20211046892013 @default.
• W2021104689 countsByYear W20211046892014 @default.
• W2021104689 countsByYear W20211046892015 @default.
• W2021104689 countsByYear W20211046892023 @default.
• W2021104689 crossrefType "journal-article" @default.
• W2021104689 hasAuthorship W2021104689A5009157476 @default.
• W2021104689 hasAuthorship W2021104689A5022669149 @default.
• W2021104689 hasAuthorship W2021104689A5052308231 @default.
• W2021104689 hasAuthorship W2021104689A5061220609 @default.
• W2021104689 hasAuthorship W2021104689A5064426444 @default.
• W2021104689 hasAuthorship W2021104689A5073681876 @default.
• W2021104689 hasConcept C171250308 @default.
• W2021104689 hasConcept C19067145 @default.
• W2021104689 hasConcept C192562407 @default.
• W2021104689 hasConcept C41008148 @default.
• W2021104689 hasConcept C49040817 @default.
• W2021104689 hasConcept C97126364 @default.
• W2021104689 hasConceptScore W2021104689C171250308 @default.
• W2021104689 hasConceptScore W2021104689C19067145 @default.
• W2021104689 hasConceptScore W2021104689C192562407 @default.
• W2021104689 hasConceptScore W2021104689C41008148 @default.
• W2021104689 hasConceptScore W2021104689C49040817 @default.
• W2021104689 hasConceptScore W2021104689C97126364 @default.
• W2021104689 hasIssue "1" @default.
• W2021104689 hasLocation W20211046891 @default.
• W2021104689 hasOpenAccess W2021104689 @default.
• W2021104689 hasPrimaryLocation W20211046891 @default.
• W2021104689 hasRelatedWork W2018879842 @default.
• W2021104689 hasRelatedWork W2737498735 @default.
• W2021104689 hasRelatedWork W2744391499 @default.
• W2021104689 hasRelatedWork W2748952813 @default.
• W2021104689 hasRelatedWork W2898370298 @default.
• W2021104689 hasRelatedWork W2899084033 @default.
• W2021104689 hasRelatedWork W3041790586 @default.
• W2021104689 hasRelatedWork W3120461830 @default.
• W2021104689 hasRelatedWork W4230250635 @default.
• W2021104689 hasRelatedWork W4292492973 @default.
• W2021104689 hasVolume "342" @default.
• W2021104689 isParatext "false" @default.
• W2021104689 isRetracted "false" @default.
• W2021104689 magId "2021104689" @default.
• W2021104689 workType "article" @default.