Diverging Nematic Susceptibility, Physical Meaning of T* scale, and Pseudogap in the Spin Fermion Model for Pnictides

Abstract

Using Monte Carlo simulations with a tunable uniaxial strain, for the first time the nematic susceptibility of a model for the pnictides is calculated. The results are in good agreement with the experiments by J-H. Chu et al., Science 337, 710 (2012). Via a Ginzburg-Landau analysis, our study suggests a nematicity in pnictides primarily originating on magnetism, but with the lattice/orbital boosting up critical temperatures and separating the structural TS and N\'eel TN transitions. At T>TS, Curie-Weiss behavior is observed with the characteristic temperature T* unveiled by Chu et al. being the TN of the purely electronic system. In this temperature regime, short-range magnetic order with wavevectors (π,0)-(0,π) induce local nematic fluctuations and a density-of-states pseudogap, compatible with several experiments.