Dynamical susceptibility of a near-critical non-conserved order parameter and B2g Raman response in Fe-based superconductors

Abstract

We analyze the dynamical response of a two-dimensional system of itinerant fermions coupled to a scalar boson φ, which undergoes a continuous transition towards nematic order with d-wave form-factor. We consider two cases: (a) when φ is a soft collective mode of fermions near a Pomeranchuk instability, and (b) when it is an independent critical degree of freedom, such as a composite spin order parameter near an Ising-nematic transition. In both cases, the order-parameter is not a conserved quantity and the d-wave fermionic polarization (q, ) remains finite even at q=0. The polarization (0, ) has similar behavior in the two cases, but the relations between (0, ) and the bosonic susceptibility (0, ) are different, leading to different forms of (0, ), as measured by Raman scattering. We compare our results with polarization-resolved Raman data for the Fe-based superconductors FeSe1-xSx, NaFe1-xCoxAs and BaFe2As2. We argue that the data for FeSe1-xSx are well described within Pomeranchuk scenario, while the data for NaFe1-xCoxAs and BaFe2As2 are better described within the "independent" scenario involving a composite spin order.