Superfluid density in the underdoped YBa2Cu3O7-x: Evidence for d-density wave order of pseudogap
Abstract
The investigation of the penetration depth λab(T,p) in YBa2Cu3O7-x crystals allowed to observe the following features of the superfluid density ns(T,p) λab-2(T,p) as a function of temperature T<Tc/2 and carrier concentration 0.078 p 0.16 in CuO2 planes: (i) ns(0,p) depends linearly on p, (ii) the derivative |dns(T,p)/dT|T 0 depends on p slightly in the optimally and moderately doped regions (0.10<p 0.16); however, it rapidly increases with p further lowering and (iii) the latter finding is accompanied by the linear low-temperature dependence [-Δns(T)] T changing to [-Δns(T)] T. All these peculiarities can be treated in the framework of d-density wave scenario of electronic processes in underdoped high-Tc materials.
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