2007
DOI: 10.1103/physrevb.75.064418
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Electronic structure and magnetic properties of graphitic ribbons

Abstract: First-principles calculations are used to establish that the electronic structure of graphene ribbons with zigzag edges is unstable with respect to magnetic polarization of the edge states. The magnetic interaction between edge states is found to be remarkably long ranged and intimately connected to the electronic structure of the ribbon. Various treatments of electronic exchange and correlation are used to examine the sensitivity of this result to details of the electron-electron interactions, and the qualita… Show more

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Cited by 633 publications
(678 citation statements)
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“…5 and 11. On the other hand, firstprinciples and mean field Hubbard model calculations 26 yield ratios U/t ≈ 1, . .…”
Section: Resultsmentioning
confidence: 99%
“…5 and 11. On the other hand, firstprinciples and mean field Hubbard model calculations 26 yield ratios U/t ≈ 1, . .…”
Section: Resultsmentioning
confidence: 99%
“…51 to be the thermodynamically most stable ones, zz(1), ac (11), zz(211), and ac (22) (see [figure] [1][]1). In addition to that, we included also ribbons with double-hydrogenated zigzag edges, zz (2).…”
Section: Considered Systemsmentioning
confidence: 99%
“…The ferromagnetic ͑FM͒ state, with the spins at the two zigzag edges aligned in the same direction, results in a metastable phase, and following this one there is a nonmagnetic phase ͑NM͒, as have been found in ab initio calculations. 8 Calculations for zigzag-edged carbon strips without hydrogen termination indicate that the AFM state is also the lowest-energy state. 9 In contrast, the armchair-edged nanoribbons do not show such magnetic phases due to the delocalized nature of the frontier orbitals.…”
Section: Introductionmentioning
confidence: 99%