Berlin 2015 – wissenschaftliches Programm

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TT: Fachverband Tiefe Temperaturen

TT 31: Superconductivity: Fe-based Superconductors – 122 and 111

TT 31.3: Vortrag

Dienstag, 17. März 2015, 10:15–10:30, H 2053

Coaction of marginal Fermi liquid behavior and van Hove singularities in unconventional superconductors — •J. Fink^1,6, A. Charnukha¹, E.D.L. Rienks², Z.H. Liu¹, S. Thirupathaiah¹, I. Avigo³, F. Roth⁴, H.S. Jeevan⁵, P. Gegenwart⁵, M. Roslova¹, I. Morozov¹, S. Wurmehl^1,6, U. Bovensiepen³, S. Borisenko¹, M. Vojta⁶, and B. Büchner^1,6 — ¹IFW Dresden Germany — ²HZB Berlin Germany — ³Universität Duisburg-Essen Germany — ⁴Center for Free-Electron Laser Science Hamburg Germany — ⁵Universität Augsburg Germany — ⁶TU Dresden Germany

Using ARPES we have studied the scattering rates and effective masses of the ferropnictides (Ba/Eu)Fe₂(As_1−xP_x)₂ and NaFe_1−x(Co/Rh)_xAs as a function of the control parameter (chemical pressure/ electron doping). The detected scattering rates of all electron and hole pockets are nearly independent of the control parameter, strongly differ for pockets having different orbital character, and are linear in energy indicating marginal Fermi liquid behavior near otimal substitution/doping. The measurements also indicate a crossing of the top of that hole pocket, having the largest scattering rate, through the Fermi level. A calculation as well as the experiments show that a coaction of marginal Fermi liquid behavior and the weakly dispersive band crossing the Fermi level leads to an extended singularity. The later can explain, possibly also in other unconventional superconductors, the strong mass enhancement near optimal doping/substitution and a superconducting phase with a small effective Fermi energy favoring a BCS-BE crossover state.