Nonlinear Hall effect in Bernal Bilayer graphene revealed with angle-resolved transport measurements

Angle-resolved transport measurement is a powerful experimental tool to extract information about the material's linear and nonlinear conductivity tensors. Recently, we developed a procedure for extracting nonlinear conductivity tensors from nonlinear electrostatic potential measurements in disk-shaped samples. Applying our extraction procedure to measurements of nonlinear potential in Bernal Bilayer Graphene, we reveal the structure of the full nonlinear conductivity tensor and observe a prominent Nonlinear Hall Effect. Our results severely constrain the microscopic origins of the observed nonlinear response.