Transverse Thermoelectric Conductivity of Bilayer Graphene in Quantum Hall Regime

Abstract

We performed electric and thermoelectric transport measurements of bilayer graphene in a magnetic field up to 15 Tesla. The transverse thermoelectric conductivity αxy, determined from four transport coefficients, attains a peak value of αxy, peak whenever chemical potential lies in the center of a Landau level. The temperature dependence of αxy, peak is dictated by the disorder width WL. For kBT/WL≤0.2, αxy, peak is nominally linear in temperature, which gives αxy,peak/T=0.19 0.03 n A/K2 independent of the magnetic field, temperature and Landau Level index. At kBT/WL≥0.5, αxy, peak saturates to a value close to the predicted universal value of 4×(ln2)kBe/h according to the theory of Girvin and Jonson. We remark that an anomaly is found in αxy near the charge neutral point, similar to that in single-layer graphene