Low temperature vortex liquid in La2-xSrxCuO4
Abstract
In the cuprates, the lightly-doped region is of major interest because superconductivity, antiferromagnetism, and the pseudogap state Timusk,Lee,Anderson come together near a critical doping value xc. These states are deeply influenced by phase fluctuations Emery which lead to a vortex-liquid state that surrounds the superconducting region WangPRB01,WangPRB06. However, many questions Doniach,Fisher,FisherLee,Tesanovic,Sachdev related to the nature of the transition and vortex-liquid state at very low tempera- tures T remain open because the diamagnetic signal is difficult to resolve in this region. Here, we report torque magnetometry results on La2-xSrxCuO4 (LSCO) which show that superconductivity is lost at xc by quantum phase fluctuations. We find that, in a magnetic field H, the vortex solid-to-liquid transition occurs at field Hm much lower than the depairing field Hc2. The vortex liquid exists in the large field interval Hm Hc2, even in the limit T0. The resulting phase diagram reveals the large fraction of the x-H plane occupied by the quantum vortex liquid.
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