Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
2009-06-23
J. Phys. Soc. Jpn. 79 (2009) 104706
Physics
Condensed Matter
Strongly Correlated Electrons
14 pages, 9 figures, OPEN SELECT in J. Phys. Soc. Jpn
Scientific paper
10.1143/JPSJ.78.104706
The mechanism of how critical end points of the first-order valence transitions (FOVT) are controlled by a magnetic field is discussed. We demonstrate that the critical temperature is suppressed to be a quantum critical point (QCP) by a magnetic field. This results explain the field dependence of the isostructural FOVT observed in Ce metal and YbInCu_4. Magnetic field scan can lead to reenter in a critical valence fluctuation region. Even in the intermediate-valence materials, the QCP is induced by applying a magnetic field, at which the magnetic susceptibility also diverges. The driving force of the field-induced QCP is shown to be a cooperative phenomenon of the Zeeman effect and the Kondo effect, which creates a distinct energy scale from the Kondo temperature. The key concept is that the closeness to the QCP of the FOVT is capital in understanding Ce- and Yb-based heavy fermions. It explains the peculiar magnetic and transport responses in CeYIn_5 (Y=Ir, Rh) and metamagnetic transition in YbXCu_4 for X=In as well as the sharp contrast between X=Ag and Cd.
Flouquet Jacques
Miyake Kazumasa
Tsuruta Atsushi
Watanabe Shinji
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