Evidence for structural and electronic instabilities at intermediate temperatures in -(BEDT-TTF)2X for X=Cu[N(CN)2]Cl, Cu[N(CN)2]Br and Cu(NCS)2: Implications for the phase diagram of these quasi-2D organic superconductors
Abstract
We present high-resolution measurements of the coefficient of thermal expansion α (T)=∂ l(T)/∂ T of the quasi-twodimensional (quasi-2D) salts -(BEDT-TTF)2X with X = Cu(NCS)2, Cu[N(CN)2]Br and Cu[N(CN)2]Cl. At intermediate temperatures (B), distinct anomalies reminiscent of second-order phase transitions have been found at T = 38 K and 45 K for the superconducting X = Cu(NCS)2 and Cu[N(CN)2]Br salts, respectively. Most interestingly, we find that the signs of the uniaxial pressure coefficients of T are strictly anticorrelated with those of Tc. We propose that T marks the transition to a spin-density-wave (SDW) state forming on minor, quasi-1D parts of the Fermi surface. Our results are compatible with two competing order parameters that form on disjunct portions of the Fermi surface. At elevated temperatures (C), all compounds show α (T) anomalies that can be identified with a kinetic, glass-like transition where, below a characteristic temperature Tg, disorder in the orientational degrees of freedom of the terminal ethylene groups becomes frozen in. We argue that the degree of disorder increases on going from the X = Cu(NCS)2 to Cu[N(CN)2]Br and the Cu[N(CN)2]Cl salt. Our results provide a natural explanation for the unusual time- and cooling-rate dependencies of the ground-state properties in the hydrogenated and deuterated Cu[N(CN)2]Br salts reported in the literature.
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