FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1966805502> ?p ?o ?g. }

• W1966805502 endingPage "9" @default.
• W1966805502 startingPage "1" @default.
• W1966805502 abstract "In recent decades, a new magnetic sensor based on magnetoresistance effect is highly researched and developed intensively. GMR material has great potential as next generation magnetic field sensing devices. It has also good magnetic and electric properties, and high potential to be developed into various applications of electronic devices such as: magnetic field sensor, current measurements, linear and rotational position sensor, data storage, head recording, and non-volatile magnetic random access memory. GMR material can be developed to be solid state magnetic sensors that are widely used in low field magnetic sensing applications. A solid state magnetic sensor can directly convert magnetic field into resistance, which can be easily detected by applying a sense current or voltage. Generally, there are many sensors for measuring the low magnetic field, such as: fluxgate sensor, Hall sensor, induction coil, GMR sensor, and SQUID sensor. Compared to other low magnetic field sensing techniques, solid state sensors have demonstrated many advantages, such as: small size (<0.1mm 2 ), low power, high sensitivity (~0.1Oe) and good compatibility with CMOS technology. The thin film of GMR is usually prepared using: sputtering, electro deposition or molecular beam epitaxy (MBE) techniques. But so far, not many researchers reported the manufacture of thin film of GMR by dc-Opposed Target Magnetron Sputtering (dc-OTMS). In this paper, we inform the development of GMR thin film with sandwich and spin valve structures using dc-OTMS method. We have also developed organic GMR with Alq3 as a spacer layer." @default.
• W1966805502 created "2016-06-24" @default.
• W1966805502 creator A5052019352 @default.
• W1966805502 creator A5080174726 @default.
• W1966805502 date "2013-09-01" @default.
• W1966805502 modified "2023-10-18" @default.
• W1966805502 title "Thin Film of Giant Magnetoresistance (GMR) Material Prepared by Sputtering Method" @default.
• W1966805502 cites W1522132695 @default.
• W1966805502 cites W1594843901 @default.
• W1966805502 cites W1666015294 @default.
• W1966805502 cites W1965245884 @default.
• W1966805502 cites W1983819651 @default.
• W1966805502 cites W1984767211 @default.
• W1966805502 cites W1994423892 @default.
• W1966805502 cites W2014741351 @default.
• W1966805502 cites W2018113133 @default.
• W1966805502 cites W2025715856 @default.
• W1966805502 cites W2025881121 @default.
• W1966805502 cites W2028767545 @default.
• W1966805502 cites W2036576446 @default.
• W1966805502 cites W2044877926 @default.
• W1966805502 cites W2046799541 @default.
• W1966805502 cites W2055046817 @default.
• W1966805502 cites W2063362913 @default.
• W1966805502 cites W2066043147 @default.
• W1966805502 cites W2067308911 @default.
• W1966805502 cites W2067352177 @default.
• W1966805502 cites W2072456103 @default.
• W1966805502 cites W2075830584 @default.
• W1966805502 cites W2076724885 @default.
• W1966805502 cites W2087768301 @default.
• W1966805502 cites W2097505501 @default.
• W1966805502 cites W2119420680 @default.
• W1966805502 cites W2161340463 @default.
• W1966805502 cites W4229727159 @default.
• W1966805502 doi "https://doi.org/10.4028/www.scientific.net/amr.770.1" @default.
• W1966805502 hasPublicationYear "2013" @default.
• W1966805502 type Work @default.
• W1966805502 sameAs 1966805502 @default.
• W1966805502 citedByCount "3" @default.
• W1966805502 countsByYear W19668055022014 @default.
• W1966805502 countsByYear W19668055022017 @default.
• W1966805502 countsByYear W19668055022022 @default.
• W1966805502 crossrefType "journal-article" @default.
• W1966805502 hasAuthorship W1966805502A5052019352 @default.
• W1966805502 hasAuthorship W1966805502A5080174726 @default.
• W1966805502 hasConcept C107637996 @default.
• W1966805502 hasConcept C115260700 @default.
• W1966805502 hasConcept C117958382 @default.
• W1966805502 hasConcept C118316555 @default.
• W1966805502 hasConcept C119599485 @default.
• W1966805502 hasConcept C121332964 @default.
• W1966805502 hasConcept C127413603 @default.
• W1966805502 hasConcept C16389437 @default.
• W1966805502 hasConcept C171250308 @default.
• W1966805502 hasConcept C19067145 @default.
• W1966805502 hasConcept C192562407 @default.
• W1966805502 hasConcept C22423302 @default.
• W1966805502 hasConcept C30403606 @default.
• W1966805502 hasConcept C49040817 @default.
• W1966805502 hasConcept C61427134 @default.
• W1966805502 hasConcept C62520636 @default.
• W1966805502 hasConcept C84154488 @default.
• W1966805502 hasConceptScore W1966805502C107637996 @default.
• W1966805502 hasConceptScore W1966805502C115260700 @default.
• W1966805502 hasConceptScore W1966805502C117958382 @default.
• W1966805502 hasConceptScore W1966805502C118316555 @default.
• W1966805502 hasConceptScore W1966805502C119599485 @default.
• W1966805502 hasConceptScore W1966805502C121332964 @default.
• W1966805502 hasConceptScore W1966805502C127413603 @default.
• W1966805502 hasConceptScore W1966805502C16389437 @default.
• W1966805502 hasConceptScore W1966805502C171250308 @default.
• W1966805502 hasConceptScore W1966805502C19067145 @default.
• W1966805502 hasConceptScore W1966805502C192562407 @default.
• W1966805502 hasConceptScore W1966805502C22423302 @default.
• W1966805502 hasConceptScore W1966805502C30403606 @default.
• W1966805502 hasConceptScore W1966805502C49040817 @default.
• W1966805502 hasConceptScore W1966805502C61427134 @default.
• W1966805502 hasConceptScore W1966805502C62520636 @default.
• W1966805502 hasConceptScore W1966805502C84154488 @default.
• W1966805502 hasLocation W19668055021 @default.
• W1966805502 hasOpenAccess W1966805502 @default.
• W1966805502 hasPrimaryLocation W19668055021 @default.
• W1966805502 hasRelatedWork W1984064749 @default.
• W1966805502 hasRelatedWork W2003101931 @default.
• W1966805502 hasRelatedWork W2003779196 @default.
• W1966805502 hasRelatedWork W2004874585 @default.
• W1966805502 hasRelatedWork W2039648999 @default.
• W1966805502 hasRelatedWork W2067977161 @default.
• W1966805502 hasRelatedWork W2324443751 @default.
• W1966805502 hasRelatedWork W2347943053 @default.
• W1966805502 hasRelatedWork W2578411603 @default.
• W1966805502 hasRelatedWork W3103397759 @default.
• W1966805502 hasVolume "770" @default.
• W1966805502 isParatext "false" @default.
• W1966805502 isRetracted "false" @default.
• W1966805502 magId "1966805502" @default.
• W1966805502 workType "article" @default.