Influence of external temperature gradient on acoustoelectric current in graphene

Abstract

Recent analyses of thermoelectric amplification of acoustic phonons in Free-Standing Graphene (FSG) qgrap have prompted the theoretical study of the influence of external temperature gradient (∇ T) on the acoustoelectric current jT(grap) in FSG. Here, we calculated thermal field on open circuit (jT(grap) = 0) to be (∇ T)g = 746.8Km-1. We then calculated acoustoelectric current (jT(grap))to be 1.1mAμ m-2 for ∇ T = 750.0 Km-1, which is comparable to that obtained in semiconductors (1.0mAμ m-2), the thermal-voltage (VT)0g to be 6.6μ V and the Seebeck coefficient S as 8.8μ V/K. Graphs of the normalized jT(grap)/j0 versus ωq, T and ∇ T/T were sketched. For jT(grap) on T for varying ωq, Negative Difference Conductivity (NDC) (| ∂ j∂ T| < 0) was observed in the material. This indicates graphene is a suitable material for developing thermal amplifiers and logic gates.