SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1972903195> ?p ?o ?g. }

Showing items 1 to 100 of ±128 with 100 items per page.

W1972903195 abstract "The dynamical approach is applied to ballistic transport in mesoscopic graphene samples of length L and contact potential U. At times shorter than both relevant time scales, the flight time and hslash/U, the major effect of the electric field is to create electron - hole pairs, i.e. causing interband transitions. In linear response this leads (for width W>>L) to conductivity pi/2 e^{2}/h. On the other hand, at times lager than the two scales the mechanism and value are different. It is shown that the conductivity approaches its intraband value, equal to the one obtained within the Landauer-Butticker approach resulting from evanescent waves. It is equal to 4/pi e^{2}/h for W>>L. The interband transitions, within linear response, are unimportant in this limit. Between these extremes there is a crossover behaviour dependent on the ratio between the two time scales. At strong electric fields (beyond linear reponse) the interband process dominates. The electron-hole mechanism is universal, namely does not depend on geometry (aspect ratio, topology of boundary conditions, properties of leads), while the evanescent modes mechanism depends on all of them. On basis of the results we determine, that while in absorption measurements and in DC transport in suspended graphene the first conductivity value was measured, the latter one would appear in experiments on small ballistic graphene flakes on substrate." @default.
W1972903195 created "2016-06-24" @default.
W1972903195 creator A5017475599 @default.
W1972903195 creator A5054785711 @default.
W1972903195 creator A5087726743 @default.
W1972903195 date "2011-09-15" @default.
W1972903195 modified "2023-09-26" @default.
W1972903195 title "Two distinct ballistic processes in graphene at the Dirac point" @default.
W1972903195 cites W1498330883 @default.
W1972903195 cites W1842700753 @default.
W1972903195 cites W1940896945 @default.
W1972903195 cites W1964218080 @default.
W1972903195 cites W1965319603 @default.
W1972903195 cites W1965719862 @default.
W1972903195 cites W1969590908 @default.
W1972903195 cites W1973181010 @default.
W1972903195 cites W1974823341 @default.
W1972903195 cites W1976020901 @default.
W1972903195 cites W1978051121 @default.
W1972903195 cites W1978249149 @default.
W1972903195 cites W1979151627 @default.
W1972903195 cites W1979595839 @default.
W1972903195 cites W1982104565 @default.
W1972903195 cites W1986570185 @default.
W1972903195 cites W1989380226 @default.
W1972903195 cites W1993655150 @default.
W1972903195 cites W1997227661 @default.
W1972903195 cites W1998454311 @default.
W1972903195 cites W2018317672 @default.
W1972903195 cites W2021312954 @default.
W1972903195 cites W2021788613 @default.
W1972903195 cites W2026467377 @default.
W1972903195 cites W2029626699 @default.
W1972903195 cites W2033506354 @default.
W1972903195 cites W2033513305 @default.
W1972903195 cites W2039062869 @default.
W1972903195 cites W2052976411 @default.
W1972903195 cites W2054604630 @default.
W1972903195 cites W2061501366 @default.
W1972903195 cites W2062306785 @default.
W1972903195 cites W2062488993 @default.
W1972903195 cites W2069334315 @default.
W1972903195 cites W2073708197 @default.
W1972903195 cites W2079332515 @default.
W1972903195 cites W2080880982 @default.
W1972903195 cites W2082472058 @default.
W1972903195 cites W2085143928 @default.
W1972903195 cites W2088485687 @default.
W1972903195 cites W2091674573 @default.
W1972903195 cites W2091882022 @default.
W1972903195 cites W2093212801 @default.
W1972903195 cites W2093994585 @default.
W1972903195 cites W2094718214 @default.
W1972903195 cites W2100423460 @default.
W1972903195 cites W2100457562 @default.
W1972903195 cites W2101678277 @default.
W1972903195 cites W2105685140 @default.
W1972903195 cites W2111785646 @default.
W1972903195 cites W2115104502 @default.
W1972903195 cites W2117734893 @default.
W1972903195 cites W2118492507 @default.
W1972903195 cites W2123510746 @default.
W1972903195 cites W2125284466 @default.
W1972903195 cites W2139324487 @default.
W1972903195 cites W2141484758 @default.
W1972903195 cites W2148243431 @default.
W1972903195 cites W2255475807 @default.
W1972903195 cites W2964044374 @default.
W1972903195 cites W3101935265 @default.
W1972903195 cites W3103243284 @default.
W1972903195 cites W3104935337 @default.
W1972903195 cites W3105462386 @default.
W1972903195 doi "https://doi.org/10.1103/physrevb.84.115419" @default.
W1972903195 hasPublicationYear "2011" @default.
W1972903195 type Work @default.
W1972903195 sameAs 1972903195 @default.
W1972903195 citedByCount "9" @default.
W1972903195 countsByYear W19729031952012 @default.
W1972903195 countsByYear W19729031952013 @default.
W1972903195 countsByYear W19729031952014 @default.
W1972903195 countsByYear W19729031952015 @default.
W1972903195 countsByYear W19729031952017 @default.
W1972903195 countsByYear W19729031952019 @default.
W1972903195 crossrefType "journal-article" @default.
W1972903195 hasAuthorship W1972903195A5017475599 @default.
W1972903195 hasAuthorship W1972903195A5054785711 @default.
W1972903195 hasAuthorship W1972903195A5087726743 @default.
W1972903195 hasBestOaLocation W19729031952 @default.
W1972903195 hasConcept C121332964 @default.
W1972903195 hasConcept C131540310 @default.
W1972903195 hasConcept C147120987 @default.
W1972903195 hasConcept C177731217 @default.
W1972903195 hasConcept C182310444 @default.
W1972903195 hasConcept C192683347 @default.
W1972903195 hasConcept C26873012 @default.
W1972903195 hasConcept C30080830 @default.
W1972903195 hasConcept C60799052 @default.
W1972903195 hasConcept C62520636 @default.
W1972903195 hasConceptScore W1972903195C121332964 @default.
W1972903195 hasConceptScore W1972903195C131540310 @default.