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Pairing and the phase diagram of the normal coherence length $ξ_N(T,x)$ above $T_c$ of $La_{2-x}Sr_xCuO_4$ thin films probed by the Josephson effect

Critical currents $I_c$ were measured in Superconducting - normal - superconducting SNS c-axis junctions, where S was optimally doped $YBa_2Cu_3O_{7-δ}$ below $T_c$ (90 K) and N was $La_{2-x}Sr_xCuO_4$ above its $T_c$ ($<$25 K) but in the pseudogap regime. $I_c$ was measured versus temperature T in junctions with various N-barrier thicknesses $d$ and doping levels $x$. From the proximity effect relation $I_c(T)\propto exp[-d/ξ_N(T)]$, the normal coherence length $ξ_N(T)$ of N was extracted and plotted versus T. Besides finding a long range proximity effect as reported also by others, we found a crossing at about 55 K above which $ξ_N(x=0.1)>ξ_N(x=0.18)]$. This unexpected result where junctions with lower carrier density in the barrier have higher conductance, is attributed to the presence of pre-formed pairs in the pseudogap regime of the cuprate barrier. Our data yields a new phase diagram of $ξ_N(T,x)$ whose contours of constant $ξ_N$ follow the trend of the superconducting dome of $La_{2-x}Sr_xCuO_4$ above its $T_c$, with $ξ_N$ enhancement in the underdoped regime above 55 K.