First and second order quantum phase transitions in multi-band superconductors |
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Authors: | Igor T. Padilha M.A. Continentino |
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Affiliation: | Instituto de Física, Universidade Federal Fluminense, Campus da Praia Vermelha, Niterói, RJ 24.210-340, Brazil |
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Abstract: | In multi-band and inter-metallic materials superconductivity can be destroyed by applying external pressure in these systems. In many cases the critical temperature is driven continuously to zero, the superconducting to normal transition being associated with a superconducting quantum critical point (SQCP). In this paper we propose a model for this type of SQCP based on the increase of hybridization as pressure is applied in the material. We study a two-band superconductor with hybridization V between these bands. We use a BCS approximation and include both inter- and intra-band attractive interactions. We show that for negligible inter-band interactions, as hybridization increases there is a second order phase transition from a superconductor to a normal state at zero temperature at a critical value of the hybridization Vc. This SQCP can be reached by pressure, since this external parameter controls hybridization in the system. We also find discontinuous transitions at zero temperature and the appearance of a gapless superconducting (GS) phase in a certain range of hybridization in the case of inter-band interactions being dominant. |
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Keywords: | Heavy fermions Quantum magnetism |
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