QUANTUM FIELD THEORY IN GRAPHENE
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Publication:2919249
DOI10.1142/S0217751X1260007XzbMath1247.82121arXiv1111.3017MaRDI QIDQ2919249
I. V. Fialkovsky, Dmitri V. Vassilevich
Publication date: 2 October 2012
Published in: International Journal of Modern Physics A (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1111.3017
Model quantum field theories (81T10) Many-body theory; quantum Hall effect (81V70) Statistical mechanics of nanostructures and nanoparticles (82D80)
Related Items (8)
Relativistic quantum chaos ⋮ Zeros of combinations of Bessel functions and the mean charge of graphene nanodots ⋮ Dispersion forces between fields confined to half spaces ⋮ Low degree Lorentz invariant polynomials as potential entanglement invariants for multiple Dirac spinors ⋮ Low-temperature expansion of the Casimir–Polder free energy for an atom interacting with a conductive plane ⋮ Radiation from electrons in graphene in strong electric field ⋮ Optical conductivity in an effective model for graphene: finite temperature corrections ⋮ Chiral magnetic effect at finite temperature in a field-theoretic approach
Cites Work
- AC CONDUCTIVITY OF GRAPHENE: FROM TIGHT-BINDING MODEL TO 2 + 1-DIMENSIONAL QUANTUM ELECTRODYNAMICS
- Parity-odd effects and polarization rotation in graphene
- Casimir effects for a flat plasma sheet: I. Energies
- Planar QED at finite temperature and density: Hall conductivity, Berry's phases and minimal conductivity of graphene
- The finite-temperature relativistic Landau problem and the relativistic quantum Hall effect
- The Band Theory of Graphite
- New developments in the Casimir effect
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