Resistive and Magnetic Susceptibility Transitions in Superconducting (TMTSF)2C104 |
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Authors: | D. U. Gubser W. W. Fuller T. O. Poehler J. Stokes D. O. Cowan M. Lee |
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Affiliation: | 1. Naval Research Laboratory;2. Applied Physics Laboratory Johns Hopkins University;3. Chemistry Department Johns Hopkins University |
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Abstract: | We report measurements of the ac magnetic susceptibility and dc resistive superconducting transitions in the organic superconductor (TMTSF)2C104. Inductive measurements show complete diamagnetic shielding below a broad transition and initial flux penetration at very low fields [Hc1(0) < 1 Oe]. The resistive transition is also broad, but occurs at a significantly higher temperature than the inductive transition, Tc = 1.0 K and 0.65 K respectively. Resistance measurements also show evidence of a phase transition in the vicinity of 24 K. Magnetic field induced transitions, measured both inductively and resistively, show marked anistropy both in magnitude and in breadth of the transition. Results suggest that (TMTSF)2C104 is a quasi ID or 2D superconductor at high temperatures and high magnetic fields and an anisotropic bulk superconductor at low temperatures and fields. Associated thermoelectric power measurements suggest that spin density waves coexist with the superconducting state. |
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Keywords: | Liquid crystalline polymer polymer blend compatibilization morphology mechanical strength |
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