Related papers: Thermoelectric effects in selfsimilar multibarrier structure based on monolayer graphene

Thermoelectric effects in selfsimilar multibarrier structure based on monolayer graphene

URL: http://arxiv.org/abs/2012.01680v1
Date: Thu, 3 Dec 2020 03:31:43 GMT
Title: Thermoelectric effects in selfsimilar multibarrier structure based on monolayer graphene
Authors: M.Miniya, O.Oubram, A.G.Reynaud Morales, I.Rodriguez-Vargas, L.M.Gaggero Sager
Abstract summary: We explore the selfsimilar patterns in the thermoelectric effects of monolayer graphene based structures. We find selfsimilar behavior and the scale factors between generations in the transport and thermoelectric properties. We present a new analytical demonstration of selfsimilarity in the Seebeck coefficient.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Thermoelectric effects have attracted wide attention in recent years from physicists and engineers. In this work, we explore the selfsimilar patterns in the thermoelectric effects of monolayer graphene based structures, by using the quantum relativistic Dirac equation. The transfer matrix method has been used to calculate the transmission coefficient. The Landauer Buttiker formalism and the Cutler Mott formula were used to calculate the conductance, the Seebeck coefficient, and the power factor. We find selfsimilar behavior and the scale factors between generations in the transport and thermoelectric properties. Furthermore, we implement these scale invariances as general scaling rules. We present a new analytical demonstration of selfsimilarity in the Seebeck coefficient. These findings can open outstanding perspectives for experimentalists to develop thermoelectric devices.

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