FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2052710108> ?p ?o ?g. }

• W2052710108 endingPage "3012" @default.
• W2052710108 startingPage "3006" @default.
• W2052710108 abstract "Physical limitations foreshadow the eventual end to traditional Complementary Metal Oxide Semiconductor (CMOS) scaling. Therefore, interest has turned to various materials and technologies aimed to succeed to traditional CMOS. Magnetic Quantum dot Cellular Automata (MQCA) are one of these technologies. Working MQCA arrays require very complex techniques and an excellent control on the geometry of the nanomagnets and on the quality of the magnetic thin film, thus limiting the possibility for MQCA of representing a definite solution to cost-effective, high density and low power consumption device demand. Counter-intuitively, moving towards bigger sizes and lighter technologies it is still possible to develop multi-state logic devices, as we demonstrated, whose main advantage is cost-effectiveness. Applications may be seen in low cost logic devices where integration and computational power are not the main issue, eventually using flexible substrates and taking advantage of the intrinsic mechanical toughness of systems where long range interactions do not need wirings. We realized cobalt micrometric MQCA arrays by means of Electron Beam Lithography, exploiting cost-effective processes such as lift-off and RF sputtering that usually are avoided due to their low control on array geometry and film roughness. Information relative to the magnetic configuration of MQCA elements including their eventual magnetic interactions was obtained from Magnetic Force Microscope (MFM) images, enhanced by means of a numerical procedure and presented in differential maps. We report the existence of bi-stable magnetic patterns, as detected by MFM while sampling the z-component of magnetic induction field, arising from dipolar inter-element magnetostatic coupling, able to store and propagate binary information. This is achieved despite the array quality and element magnetic state, which are low and multi-domain, respectively. We discuss in detail shape, inter-element spacing and dot profile effects on the magnetic coupling. Numerical Finite Element Method (FEM) simulations show a possible microspin arrangement producing such magnetostatic coupling." @default.
• W2052710108 created "2016-06-24" @default.
• W2052710108 creator A5036441962 @default.
• W2052710108 creator A5040797587 @default.
• W2052710108 creator A5069995541 @default.
• W2052710108 date "2012-09-01" @default.
• W2052710108 modified "2023-09-28" @default.
• W2052710108 title "Magnetic dipolar coupling and collective effects for binary information codification in cost-effective logic devices" @default.
• W2052710108 cites W1966497879 @default.
• W2052710108 cites W1969293354 @default.
• W2052710108 cites W1975592851 @default.
• W2052710108 cites W1976924286 @default.
• W2052710108 cites W1978209037 @default.
• W2052710108 cites W1986881964 @default.
• W2052710108 cites W1989812908 @default.
• W2052710108 cites W1994910407 @default.
• W2052710108 cites W2021403761 @default.
• W2052710108 cites W2023182056 @default.
• W2052710108 cites W2031527122 @default.
• W2052710108 cites W2046937166 @default.
• W2052710108 cites W2068236763 @default.
• W2052710108 cites W2089773071 @default.
• W2052710108 cites W2107979398 @default.
• W2052710108 cites W2121950596 @default.
• W2052710108 cites W2122680663 @default.
• W2052710108 cites W2129168928 @default.
• W2052710108 cites W2130915971 @default.
• W2052710108 cites W2133546240 @default.
• W2052710108 cites W2148419740 @default.
• W2052710108 cites W2159673718 @default.
• W2052710108 cites W2170998169 @default.
• W2052710108 doi "https://doi.org/10.1016/j.jmmm.2012.04.045" @default.
• W2052710108 hasPublicationYear "2012" @default.
• W2052710108 type Work @default.
• W2052710108 sameAs 2052710108 @default.
• W2052710108 citedByCount "20" @default.
• W2052710108 countsByYear W20527101082012 @default.
• W2052710108 countsByYear W20527101082014 @default.
• W2052710108 countsByYear W20527101082015 @default.
• W2052710108 countsByYear W20527101082017 @default.
• W2052710108 countsByYear W20527101082018 @default.
• W2052710108 countsByYear W20527101082019 @default.
• W2052710108 countsByYear W20527101082020 @default.
• W2052710108 crossrefType "journal-article" @default.
• W2052710108 hasAuthorship W2052710108A5036441962 @default.
• W2052710108 hasAuthorship W2052710108A5040797587 @default.
• W2052710108 hasAuthorship W2052710108A5069995541 @default.
• W2052710108 hasBestOaLocation W20527101082 @default.
• W2052710108 hasConcept C119599485 @default.
• W2052710108 hasConcept C127413603 @default.
• W2052710108 hasConcept C192562407 @default.
• W2052710108 hasConcept C24326235 @default.
• W2052710108 hasConcept C41008148 @default.
• W2052710108 hasConceptScore W2052710108C119599485 @default.
• W2052710108 hasConceptScore W2052710108C127413603 @default.
• W2052710108 hasConceptScore W2052710108C192562407 @default.
• W2052710108 hasConceptScore W2052710108C24326235 @default.
• W2052710108 hasConceptScore W2052710108C41008148 @default.
• W2052710108 hasIssue "19" @default.
• W2052710108 hasLocation W20527101081 @default.
• W2052710108 hasLocation W20527101082 @default.
• W2052710108 hasOpenAccess W2052710108 @default.
• W2052710108 hasPrimaryLocation W20527101081 @default.
• W2052710108 hasRelatedWork W141098887 @default.
• W2052710108 hasRelatedWork W2292241153 @default.
• W2052710108 hasRelatedWork W2393477852 @default.
• W2052710108 hasRelatedWork W2737498735 @default.
• W2052710108 hasRelatedWork W2744391499 @default.
• W2052710108 hasRelatedWork W2748952813 @default.
• W2052710108 hasRelatedWork W2898370298 @default.
• W2052710108 hasRelatedWork W2899084033 @default.
• W2052710108 hasRelatedWork W4292492973 @default.
• W2052710108 hasRelatedWork W969526214 @default.
• W2052710108 hasVolume "324" @default.
• W2052710108 isParatext "false" @default.
• W2052710108 isRetracted "false" @default.
• W2052710108 magId "2052710108" @default.
• W2052710108 workType "article" @default.