Giant Magnetic Quantum Oscillations and Chiral Anomaly in the Thermal Conductivity of a Weyl Semimetal

Giant quantum oscillations of magneto-thermal conductivity amounting to two orders of magnitude of the estimation based on the Wiedemann-Franz law have been observed in the prototypical Weyl semimetal TaAs. The characteristic oscillation frequency ($F$ $\approx$ 7 T) agrees well with that confirmed for a small hole-type Fermi pocket enclosing a Weyl node. A comparative analysis of various potential scenarios suggests a significant electron-phonon coupling that strongly modulates the phonon mean free path through Landau quantization of the electronic density of states to be at the heart. Resembling the chiral-anomaly induced positive magneto-electrical conductivity, an increase of the thermal conductivity in parallel magnetic field has also been observed. Our findings pose the question whether these are characteristic also for other recently discovered topological electronic materials, calling for more intensive investigations along this line.