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Título: | Dynamical breakdown of parity and time-reversal invariance in the many-body theory of graphene |
Autor: | González, J. | Palabras clave: | Field theories in lower dimensions Renormalization, regularization and renormalons |
Fecha de publicación: | 2013 | Editor: | Springer Nature | Citación: | Journal of high energy physics 07 (2013): 175 (2013) | Resumen: | We show that, at sufficiently large strength of the long-range Coulomb interaction, a mass term breaking parity (so-called Haldane mass) is dynamically generated in the many-body theory of Dirac fermions describing the graphene layer. While the tendency towards chiral symmetry breaking is stronger than for the dynamical breakdown of parity at spatial dimension D > 2, we find that the situation is reversed at D = 2. The need to regularize the many-body theory in a gauge-invariant manner (taking the limit D = 2 - Ïμ) is what leads to the dominance of the parity-breaking pattern in graphene. We compute the critical coupling for the generation of a parity-breaking mass from the finite radius of convergence of the ladder series supplemented with electron self-energy corrections, finding a value quite close to the effective interaction strength for graphene in vacuum after including Fermi velocity renormalization and static random-phase approximation (RPA) screening of the Coulomb interaction. © 2013 SISSA, Trieste, Italy. | URI: | http://hdl.handle.net/10261/103710 | DOI: | 10.1007/JHEP07(2013)175 | Identificadores: | doi: 10.1007/JHEP07(2013)175 issn: 1126-6708 |
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