2009
DOI: 10.1103/physrevlett.102.047004
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Magnetic-Field Induced Crossover of Superconducting Percolation Regimes in the Layered Organic Mott Systemκ(BEDTTTF)2Cu[

Abstract: Fluctuation spectroscopy is used to investigate the organic bandwidth-controlled Mott system kappa-(BEDT-TTF)(2)Cu[N(CN)(2)]Cl. We find evidence for percolative-type superconductivity in the spatially inhomogeneous coexistence region of antiferromagnetic insulating and superconducting states. When the superconducting transition is driven by a magnetic field, percolation seems to be dominated by instable superconducting clusters upon approaching T(c)(B) from above, before a "classical" type of percolation is re… Show more

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Cited by 30 publications
(40 citation statements)
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“…These domains are also coupled along the transverse direction c by the interplane Josephson coupling J 0 . This structure is consistent with the one proposed by Müller et al [63] from fluctuation spectroscopy measurements…”
Section: Time Dependent Ginzburg-landau Approachsupporting
confidence: 81%
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“…These domains are also coupled along the transverse direction c by the interplane Josephson coupling J 0 . This structure is consistent with the one proposed by Müller et al [63] from fluctuation spectroscopy measurements…”
Section: Time Dependent Ginzburg-landau Approachsupporting
confidence: 81%
“…Such inhomogeneity may explain the anomalous behavior of the inplane conductivity in these materials [59]. It has been also found that the inhomogeneous superconductivity in κ(ET) 2 X compounds can also be generated by chemical [24-26, 31, 32, 55, 60] or hydrostatic pressure [10,11,[61][62][63] and irradiation [28,30,64].…”
Section: Some Experimental Factsmentioning
confidence: 99%
“…On the other hand, k-CuNCS is less correlated and positioned on the far metallic side in the phase diagram. At low temperatures, all three samples show a vanishing resistance indicating a superconducting ground state, whereas for k-Cl à the transition is broad and of percolative type due to the coexistence with the antiferromagnetic insulating phase [11]. Metallic k-CuNCS exhibits a negative temperature coefficient of the resistance down to about 120 K, where R(T) shows a broad maximum, the origin of which has been discussed in terms of the strongly correlated nature of the electrons, the formation of small polarons, a metal-metal phase transition, a valence instability of Cu, an order-disorder transition of the ethylene endgroups, and a crossover from localized small-polaron to coherent large-polaron behavior, see Ref.…”
Section: Experiments Single Crystals Ofmentioning
confidence: 94%
“…At high temperatures, the resistance shows a semiconducting behavior down to about 50 K, below which a step-like decrease of the resistance by almost two orders of magnitude indicates the occurrence of a metallic phase. Below 20 K, the resistance shows an increase again (with small hysteresis), which may be caused by electron localization near the Mott transition [30], before the transition into the superconducting state occurs at a à is due to inhomogeneous phase coexistence of the antiferromagnetic insulating and superconducting ground states [11].…”
Section: Experiments Single Crystals Ofmentioning
confidence: 97%
“…This can be understood considering the sample's position in the phase diagram closer to the Mott insulating phase resulting in a correlationinduced increase of the low-frequency fluctuations, since the charge carriers already tend to localize, an effect, which possibly is enhanced by weak static disorder [31]. Likewise, electronic phase separation in this region may enhance the low-frequency fluctuations [30,32]. Most striking, however, is the sharp and -compared to κ-D 8 -Br -strongly enhanced noise peak at T ∼ 33 K for the κ-D 8 /H 8 -Br sample cooled with q = 0.5 K/min.…”
mentioning
confidence: 99%