Coherent quasi-particles-to-incoherent hole-carriers crossover in underdoped cuprates

Abstract

In underdoped cuprates, only a portion of the Fermi surface survives as Fermi arcs due to pseudogap opening. In hole-doped La2CuO4, we have deduced the "coherence temperature" Tcoh of quasi-particles on the Fermi arc above which the broadened leading edge position in angle-integrated photoemission spectra is shifted away from the Fermi level and the quasi-particle concept starts to lose its meaning. Tcoh is found to rapidly increase with hole doping, an opposite behavior to the pseudogap temperature T*. The superconducting dome is thus located below both T* and Tcoh, indicating that the superconductivity emerges out of the coherent Fermionic quasi-particles on the Fermi arc. Tcoh remains small in the underdoped region, indicating that incoherent charge carriers originating from the Fermi arc are responsible for the apparently metallic transport at high temperatures.