Dresden 2009 – wissenschaftliches Programm
Bereiche | Tage | Auswahl | Suche | Downloads | Hilfe
TT: Fachverband Tiefe Temperaturen
TT 22: Correlated Electrons: Quantum-Critical Phenomena 2
TT 22.5: Vortrag
Mittwoch, 25. März 2009, 10:45–11:00, HSZ 03
Thermoelectric power in the quantum critical regime of YbRh2Si2 and CeNi2Ge2 — •Stefanie Hartmann, Niels Oeschler, Cornelius Krellner, Nubia Caroca-Canales, Christoph Geibel, and Frank Steglich — MPI CPfS, Dresden, Germany
The heavy-fermion compounds YbRh2Si2 and CeNi2Ge2 are situated very close to a quantum critical point (QCP). YbRh2Si2 exhibits an antiferromagnetic ground state with TN = 70 mK and a tiny critical field Bc≈ 60 mT. In CeNi2Ge2 a non-magnetic ground state is observed. While in CeNi2Ge2 a 3-dim. spin-density wave scenario is realized, the QCP in YbRh2Si2 is shown to be of anomalous nature with a critical break-down of the Kondo scale. We report on low-temperature thermopower S(T) results in the quantum critical regimes of both compounds. S/T logarithmically diverges upon cooling down to 100 mK in the critical region of YbRh2Si2, reflecting the strongly diverging heavy quasi-particle mass upon approaching the QCP. However, a decrease and a sign change in S/T for B<Bc point toward a "small" Fermi surface on the magnetic side. In the quantum critical regime of CeNi2Ge2, S/T remains comparably small and does not exhibit a divergence for T→0. In the field-induced Landau-Fermi-liquid regime, both compounds exhibit a constant S/T below TLFL as expected for a renormalized metal-like state.