A minimal model of electrons coupled to quantum critical bosons through disordered Yukawa interactions and pinned density waves derives T-linear and B-linear transport scalings that match strange metal experiments.
Theory of a Strange Metal in a Quantum Superconductor to Metal Transition,
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Variational calculation on the disordered t-J model finds superfluid density robust to disorder, monotonically increasing with doping, and linear with optical weight, supporting a Mott transition at the pseudogap end point.
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Theory of Linear Magnetoresistance in a Strange Metal
A minimal model of electrons coupled to quantum critical bosons through disordered Yukawa interactions and pinned density waves derives T-linear and B-linear transport scalings that match strange metal experiments.
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Disorder effect on the superfluid density and the origin of the pseudogap end point in the cuprate superconductors
Variational calculation on the disordered t-J model finds superfluid density robust to disorder, monotonically increasing with doping, and linear with optical weight, supporting a Mott transition at the pseudogap end point.