ER=EPR and Strange Metals from Quantum Entanglement

We show how a strange metal emerges from the long-range quantum entanglements. Given that the quenched average of a spatially random coupling between a Fermi surface and critical bosons results in linear-$T$ resistivity, we first calculate the annealed average of the model and find that it also give the linear resistivity. We then observe that the correlator of the 'coupling field' in quenched average can be interpreted as the wormholes that connect pair of points separated by arbitrary distance, while the annealed average can be interpreted as a pure system without disorder having quantum entanglements between the connected pairs. We show that, in the large-$N$ limit, two averages are equivalent. Therefore we suggest that this equivalence provides insight to the precise meaning of $ER=EPR$ conjecture in the context of an explicit model with well defined computation. Also, we point out that the wormhole picture clarifies why a SYK-rized model describes the strongly interacting system even in the case the averaged coupling strength is tiny.