Evolution of c-f hybridization and two-component Hall effect in β-YbAlB4.
2012
\beta-YbAlB_4 is the unique heavy fermion superconductor that exhibits unconventional quantum criticality without tuning in a strongly intermediate valence state. Despite the large coherence temperature, set by the peak of the longitudinal resistivity, our Hall effect measurements reveal that resonant skew scattering from incoherent local moments persists down to at least ~40 K, where the Hall coefficient exhibits a distinct minimum signaling another formation of coherence. The observation strongly suggests that the hybridization between f-moments and conduction electrons has a two component character with distinct Kondo or coherence scales T_K of ~40 K and 200 K; this is confirmed by the magnetic field dependence of \rho_xy.
Keywords:
- Heavy fermion superconductor
- Condensed matter physics
- Hall effect
- Scattering
- Electrical resistivity and conductivity
- Electron
- Magnetic field
- Coherence (physics)
- Physics
- Nuclear magnetic resonance
- Thermal conduction
- Vickers hardness test
- Boron
- Valence electron
- Paramagnetism
- Materials science
- Metal
- Octahedron
- Resonant ultrasound spectroscopy
- Magnetization
- Correction
- Source
- Cite
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