Nexus between quantum criticality and the chemical potential pinning in high-Tc cuprates

Abstract

For strongly correlated electrons the relation between total number of charge carriers ne and the chemical potential μ reveals for large Coulomb energy the apparently paradoxical pinning of μ within the Mott gap, as observed in high-Tc cuprates. By unravelling consequences of the non-trivial topology of the charge gauge U(1) group and the associated ground state degeneracy we found a close kinship between the pinning of μ and the zero-temperature divergence of the charge compressibility ∂ ne/∂μ, which marks a novel quantum criticality governed by topological charges rather than Landau principle of the symmetry breaking.

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