Dresden 2006 – wissenschaftliches Programm

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TT: Tiefe Temperaturen

TT 25: Correlated Electrons - Poster Session

TT 25.55: Poster

Mittwoch, 29. März 2006, 14:30–18:30, P1

Hall Effect in YbRh₂Si₂ — •Sven Friedemann¹, Niels Oeschler¹, Silke Paschen^1,2, and Frank Steglich¹ — ¹Max-Planck-Institut for Chemical Physics of Solids, Noethnitzer Strasse 40, 01187 Dresden, Germany — ²Vienna University of Technology, Karlsplatz 13, 1040 Wien, Austria

The heavy-fermion metal YbRh₂Si₂ exhibits pronounced non-Fermi liquid behaviour due to its vicinity to a quantum critical point (QCP). At zero magnetic field, the system orders antiferromagnetically at very low temperatures (T_N=70 mK). By applying a small magnetic field, YbRh₂Si₂ is driven through the QCP towards the paramagnetic state. Currently, two scenarios for a system at this type of QCP are discussed: The spin-density-wave scenario at which heavy electrons are expected on both sides of the QCP and the locally QCP at which the heavy electrons on the paramagnetic side disintegrate into localised magnetic moments and light conduction electrons on the magnetic side of the QCP. The field-dependent Hall effect as a measure of the Fermi volume turns out to be the appropriate method to characterize the QCP in YbRh₂Si₂. Low-temperature Hall-effect measurements of YbRh₂Si₂ show a rapid change of the Fermi volume and thus strongly hint at the existence of a locally QCP with a small Fermi surface at the magnetic side and a large one at the paramagnetic side [1]. We present similar measurements of the Hall coefficient on YbRh₂Si₂ and on the reference substance LuRh₂Si₂ in an extended temperature range.

[1] S. Paschen et al., Nature 432, 881 (2004)