Giant Electroresistance in Edge Metal-Insulator-Metal Tunnel Junctions Induced by Ferroelectric Fringe Fields

Giant Electroresistance in Edge Metal-Insulator-Metal Tunnel Junctions Induced by Ferroelectric Fringe Fields

An enormous amount of research activities has been devoted to developing new types of non-volatile memory devices as the potential replacements of current flash memory devices. Theoretical device modeling was performed to demonstrate that a huge change of tunnel resistance in an Edge Metal-Insulator...

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Veröffentlicht in:Scientific reports 2016-08, Vol.6 (1), p.30646-30646, Article 30646
Hauptverfasser: Jung, Sungchul, Jeon, Youngeun, Jin, Hanbyul, Lee, Jung-Yong, Ko, Jae-Hyeon, Kim, Nam, Eom, Daejin, Park, Kibog
Format: Artikel
Sprache:eng
Schlagworte:
639/301/1005/1007
639/766/1130/2798
639/766/119/996
639/925/927/1007
Electronics industry
Humanities and Social Sciences
Metals
multidisciplinary
Polarization
Random access memory
Science
Thin films
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Beschreibung
Zusammenfassung:An enormous amount of research activities has been devoted to developing new types of non-volatile memory devices as the potential replacements of current flash memory devices. Theoretical device modeling was performed to demonstrate that a huge change of tunnel resistance in an Edge Metal-Insulator-Metal (EMIM) junction of metal crossbar structure can be induced by the modulation of electric fringe field, associated with the polarization reversal of an underlying ferroelectric layer. It is demonstrated that single three-terminal EMIM/Ferroelectric structure could form an active memory cell without any additional selection devices. This new structure can open up a way of fabricating all-thin-film-based, high-density, high-speed, and low-power non-volatile memory devices that are stackable to realize 3D memory architecture.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep30646