Evidences for pairing of nearly-free quasiparticles from paraconductivity in layered superconducting cuprates

TL;DR

This paper demonstrates that the paraconductivity observed in layered cuprate superconductors aligns with the pairing of nearly-free quasiparticles, supported by theoretical analysis and magnetic field data.

Contribution

It clarifies the universal features of paraconductivity and provides evidence for nearly-free fermionic pairing in underdoped cuprates.

Findings

Paraconductivity data matches the Aslamazov-Larkin theory for nearly-free quasiparticles.

The critical magnetic field H_{c2}(0) is found to be relatively low.

Experimental temperature dependence supports the pairing scenario.

Abstract

We revisit the Aslamazov-Larkin theory of paraconductivity in two dimensions, to distinguish its universal features from the specific features of nearly-free paired fermions. We show that both the numerical prefactor and the temperature dependence of the experimental paraconductivity in underdoped La_{2-x}Sr_xCuO_4 are only compatible with pairing of nearly-free fermionic quasiparticles. This conclusion is strengthened by the analysis of paraconductivity data in the presence of a finite magnetic field, from which we extract a rather low value of the critical field H_{c2}(T=0).