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TT: Fachverband Tiefe Temperaturen
TT 56: CE: Heavy Fermions
TT 56.7: Vortrag
Donnerstag, 17. März 2011, 18:15–18:30, HSZ 105
Magnetically driven superconductivity in CeCu2Si2 — •S. Kirchner1,2, O. Stockert2, J. Arndt2, E. Faulhaber3,4, C. Geibel2, H.S. Jeevan2, M. Loewenhaupt4, K. Schmalzl5, W. Schmidt5, Q. Si6, and F. Steglich2 — 1Max-Planck-Institut PKS, Dresden, Germany — 2Max-Planck-Institut CPfS, Dresden, Germany — 3Institut für Festkörperphysik, TU Dresden, Dresden, Germany — 4Gemeinsame Forschergruppe Helmholtz-Zentrum Berlin – TU Dresden, Garching, Germany — 5Forschungszentrum Jülich, Jülich Centre for Neutron Science at Institut Laue-Langevin, Grenoble, France — 6Dept. of Physics and Astronomy, Rice Univ., Houston, USA
The origin of unconventional superconductivity, including high-temperature and heavy-fermion superconductivity, is still a matter of controversy. Spin excitations instead of phonons are thought to be responsible for the formation of Cooper pairs. Based on inelastic neutron scattering data, we present the first in-depth study of the magnetic excitation spectrum in momentum and energy space in the superconducting and the normal state of CeCu2Si2 [1]. A clear spin excitation gap is observed in the superconducting state. Our findings identify the antiferromagnetic excitations as the major driving force for superconducting pairing in this prototypical heavy-fermion compound located near an antiferromagnetic quantum critical point. This study represents the first thorough comparison of the competing energetics for a superconductor near an antiferromagnetic quantum critical point, as well as for any unconventional low-temperature superconductor. [1] accepted for publication in Nature Physics.