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Title
Generation and control of charge, spin and valley currents in armchair silicene nanoribbons
Type Article
Keywords
Not Record
Abstract
It is well known that future information technology relies upon electronic states other than charge, through the feasibility of constructingspintronicandvalleytronicdevices.Themainchallengeinsuch applications isthegenerationandcontrolofthecorrespondingstatecurrents.Thepresentpaperisthus concerned withcharge,spinandvalleycurrentswhichintrinsicallydevelopinarmchairsilicene nanoribbons (ASNs).InpursuingthisconsiderationthewellestablishedKuboformulaisemployed. TakingthesymmetriesoftheASNintoaccount,weanalyzethestructureoftotalHamiltonianand demonstratehowthematrixelementsalongwiththesummationsinvolvedinthesuitablyadopted Kuboformula,maybeanalyticallycalculated.Theresultsso-obtainedalongwiththecorresponding figures revealthatallthreecurrentsdevelopinastep-wisemanner.Theheights,indicatingajumpinthe current, andtheplateaus,indicatingaconstantcurrent,areshowntobetunablebyadjustingthewidth and/or thebuckledeffect.Moreover,wedemonstratethatforparticular(critical)widthsaninversionin band gapsmayoccur,givingrisetoquantumphasetransitions.Morepracticalresultofthispaper,aswe show,isthefactthattheASNcangeneratepurespin or valleycurrentunderspecific conditionsplaced on thewidth,buckledeffectandFermienergy.Thematerialpresentedinthispaperthusprovidesnovel means ofgenerationandcontrolofthecharge,spinandvalleycurrents.
Researchers Hossein Shirkani (First researcher) , Mohammad Mehdi Golshan (Second researcher)