Dr Ilya Eremin - Superconductivity and metallic spin density wave in iron-based

Tuesday 26 January 2010, 13:30

Dr Ilya Eremin, (Max-Planck-Institut )

Max-Planck-Institut für Physik komplexer Systeme, 01187 Dresden, Germany

Recent discovery of superconductivity in the iron-based layered pnictides  with Tc ranging between 26 and 56K  generated enormous interest  in the physics of these materials. The superconductivity has been discovered in oxygen containing RFeAsO (R=La, Nd, Sm) as well as in oxygen free AFe2As2 (A=Ba, Sr, Ca). Like the cuprates, the pnictides are  highly two-dimensional, their parent material shows antiferromagnetic long-range order below 150K and superconductivity occurs upon doping of either electrons or holes into the FeAs layers.

In my talk I will analyze antiferromagnetism and superconductivity within the renormalization  group(RG) technique in novel Fe-based superconductors using the itinerant model of small electron and hole pockets near (0; 0) and (,), respectively, originating from the two strongly hybridized orbitals. We find that, for this model, the bare interactions in the Cooper channel are repulsive, and superconductivity does not occur at the mean-field level. However, under RG the effective interaction in the superconducting channel changes sign and becomes attractive. Furthermore, the effective interactions in antiferromagnetic and superconducting channels logarithmically flow towards the same absolute values at low energies, i.e., both must be treated on equal footings.

I will further discuss the selection of the stripe magnetic order in the unfolded BZ within itinerant description. Selecting one hole and two electron pockets we found that SDW order is highly degenerate if electron pockets are circular and interactions involved are between holes and electrons only. Repulsive charge interactions between two electrons as well as ellipticity of the electron pockets break the degeneracy and select metallic (0, ) [(,0)] SDW state in the unfolded BZ -- the same order as seen in the experiments. We found that the SDW state remains a metal even for the case of a perfect nesting because one combination of the two hole operators and one combination of two electron operators decouple from the SDW mixing.

Event type Seminar
Start date and time Tuesday 26 January 2010, 13:30
End Tuesday 26 January 2010, 14:30
Location CR11, R3
Maximum Audience 25
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