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|Title:||Faraday effect in graphene enclosed in an optical cavity and the equation of motion method for the study of magneto-optical transport in solids|
|Authors:||Ferreira, A. |
Castro Neto, A.H.
|Source:||Ferreira, A., Viana-Gomes, J., Bludov, Y.V., Pereira, V., Peres, N.M.R., Castro Neto, A.H. (2011-12-01). Faraday effect in graphene enclosed in an optical cavity and the equation of motion method for the study of magneto-optical transport in solids. Physical Review B - Condensed Matter and Materials Physics 84 (23) : -. ScholarBank@NUS Repository. https://doi.org/10.1103/PhysRevB.84.235410|
|Abstract:||We show that by enclosing graphene in an optical cavity, giant Faraday rotations in the infrared regime are generated and measurable Faraday rotation angles in the visible range become possible. Explicit expressions for the Hall steps of the Faraday rotation angle are given for relevant regimes. In the context of this problem we develop an equation of motion (EOM) method for calculation of the magneto-optical properties of metals and semiconductors. It is shown that properly regularized EOM solutions are fully equivalent to the Kubo formula. © 2011 American Physical Society.|
|Source Title:||Physical Review B - Condensed Matter and Materials Physics|
|Appears in Collections:||Staff Publications|
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