Anisotropy of upper critical field in one-dimensional organic system, (TMTTF)2PF6 under extremely high pressure

Abstract

We have measured the temperature dependent resistivity of (TMTTF)2PF6 to 7 GPa using a turnbuckle DAC (diamond anvil cell) and in magnetic field up to 5 T. Unlike many other organic conductors, a zero resistance was observed in the superconducting state even under high pressures. Superconductivity was observed over a range of P = 4.18 GPa to 6.03 GPa and showed a peak Tc of 2.25 K at 4.58 GPa. The temperature dependence of the upper critical magnetic field Hc2(T) was determined via resistivity at P = 4.58 GPa, for the intrachain (a), interchain (b'), and interlayer (c*) configurations and the Hc2(T) displays positive curvature without saturation, which may be originated by a FFLO state, for magnetic field along a-axis and b'-axis in T 0.5 K for P = 4.48 GPa. This feature is suppressed with increasing pressure and the orbital pair breaking mechanism becomes dominant. The values of the Ginzberg-Landau coherence length for three different axes obtained from this work shows that (TMTTF)2PF6 is an anisotropic three - dimensional superconductor.